In mid-April, CATL announced plans to invest 30 billion yuan to establish a wholly-owned subsidiary, Times Resources Group, registered in Xiamen and positioned as a professional investment, operation, and management platform in the new energy minerals sector. This major move is not only a key step for CATL in building a closed-loop entire industry chain of "ore — materials — battery — recycling," but will also inject strong momentum into the extraction and reuse of rare and precious metal resources, driving the battery recycling industry from standardized development toward a new phase of technological breakthroughs and scale expansion. The core mission of Times Resources Group is to integrate global critical minerals resources such as lithium, nickel, and cobalt, while expanding into high-quality rare and precious metal mining projects. From an industry perspective, lithium, nickel, and cobalt are core raw materials for power batteries, while rare and precious metals such as gold, silver, and platinum group metals are indispensable in electronic devices and catalysts. Through this 30 billion yuan capital deployment, CATL can both ensure that its primary lithium resources self-supply rate rises above 35% and keep lithium chemicals costs below 50,000 yuan/mt, while also establishing stable raw material connection channels for rare and precious metal regeneration after battery recycling through full industry chain control of mineral resources. More notably, CATL hired Chen Jinghe, founder of Zijin Mining, as a mining consultant, leveraging his extensive experience in mineral exploration and extraction to further optimize resource development processes. This means the upstream extraction segment will place greater emphasis on green and efficient technology applications, such as adopting efficient leaching technology for low-grade ore and comprehensive recovery processes for rare and precious metal associated ore, improving resource utilization rate from the source, laying the raw material foundation for rare and precious metal regeneration in subsequent battery recycling, and achieving synergy between "primary extraction + secondary recycling."

Capacity: according to incomplete statistics, China's alkaline electrolyzer market remained at 43.77 GW, the PEM electrolyzer market remained at 2.7 GW, with no new capacity additions for the time being. This week, CPU Hydrogen Power's independently developed 100 Nm³ containerized integrated hydrogen production system completed factory detection and was officially shipped to Sichuan; Trina Green Hydrogen completed the centralized delivery of a batch of 1,000 Nm³/h alkaline hydrogen production equipment, which had arrived at a large-scale green ammonia-methanol project site in China and was about to commence installation; Yigong completed the shipment and delivery of its independently developed and manufactured hydrogen compressor station units. Project-related updates: Jiamusi Hanya New Energy Co., Ltd. : officially signed a memorandum of cooperation in Hefei with Johnson Matthey, a global leader in sustainable technology, and East China Engineering Science and Technology Co., Ltd. The three parties will jointly advance the implementation of the 150,000 mt biomass green methanol demonstration project invested and constructed by Sunshine Green Energy in Tiandong County, Guangxi. Jiang Xi, Executive President of Sunshine Green Energy, Zhong Ling, General Manager of Johnson Matthey China, and Meng Chenzhou, General Manager of East China Engineering Science and Technology, signed the agreement on behalf of their respective parties. Zhongneng Kehang (Baotou) New Energy Technology Co., Ltd.: The annual 300 million m³ green electricity-to-hydrogen project received filing approval. The project is located in Jinshan Economic Development Zone, Guyang County, Baotou City, Inner Mongolia Autonomous Region, with a total investment of 500 million yuan. Construction scale and content: 18 new hydrogen production lines, office buildings, workshops, shift dormitories, etc. Planned construction period: 2026/08–2028/07. Huawang (Qingdao) Hydrogen Energy Technology Group Co., Ltd.: plans to build a 5,000 Nm³/h PSA purification hydrogen production unit in Dongjiakou Chemical Industrial Park, Huangdao District, Qingdao City, Shandong Province. The project will utilize industrial by-product hydrogen resources within the park, and the purified hydrogen will be transported via pipeline to downstream hydrogen refueling stations. The company is now publicly soliciting interested partner manufacturers nationwide, collecting relevant equipment technical proposals and organizing evaluations. Suppliers with appropriate qualifications and project experience are welcome to participate. The project is located in Dongjiakou Chemical Industrial Park, Boli Town, Huangdao District, Qingdao City, with the liaison location at the Hydrogen Energy Building, Boli Town, West Coast New Area, Qingdao City. The available construction area for the unit is approximately 720 m² (30 m × 24 m). Bidding entities are required to complete the layout of process equipment, pipe racks, and maintenance access within the premises of meeting fire protection and safety clearance requirements. Utilities including electricity, circulating water, instrument air, nitrogen, and fire water can be connected to Jinneng Chemical's existing systems. Tieling Carbon Cycle Biotechnology Co., Ltd.: China Energy Engineering Group's CEEC Heilongjiang Institute won the EPC general contracting project for Tieling Carbon Cycle's biomass-to-green-methanol green electricity direct connection project. The project is located in the Chemical Industrial Park of Diaobingshan City, Tieling, Liaoning Province. In this phase, three 220 mt/h high-temperature and high-pressure circulating fluidized bed biomass boilers will be constructed, along with one 50 MW high-temperature and high-pressure extraction-condensing turbo-generator set. Supporting facilities including a desalinated water station, fuel storage yard, and main step-down substation will be built simultaneously. The project primarily provides green electricity and green steam for the overall green ethanol production project, serving as a supporting power plant project. Gansu Runlong Hongneng Energy Management Co., Ltd.: The Guazhou County wind and solar power hydrogen production coupled with biomass-based 250,000 mt/year green methanol integration project, with a total investment of 5.5 billion yuan, officially commenced construction at the Liugou Coal Chemical Industrial Park. The project is invested and constructed by Gansu Runlong Hongneng Energy Management Co., Ltd. It is a major construction reserve project listed by Gansu Province for 2026 and a key benchmark industrial project for Jiuquan City and Guazhou County. The project plans to build 390 MW wind power, 150 MW PV, with supporting 160 MW/320 MWh grid-forming ESS, 48,000 Nm³/h water electrolysis hydrogen production facilities, and a 250,000 mt/year green methanol synthesis unit, while simultaneously achieving biomass gasification synthesis coupled production. Adopting the "green electricity to green hydrogen + biomass gas synthesis" technology route, the project can achieve over 5% self-generated and self-consumed clean electricity, produce over 20,000 mt of green hydrogen annually, consume over 200,000 mt of agricultural and forestry waste annually, and build a zero-carbon energy and resource recycling system. China Energy Engineering Bochuang Green Fuel (Shenyang) Co., Ltd.: The Phase I 100,000 mt green methanol project of the Shenyang wind and solar power hydrogen production integrated with biomass green alcohol and oil demonstration project released an EPC general contracting tender announcement. Phase I construction includes 100 MW centralised wind power, 50 MW/100 MWh electrochemical energy storage, a 100,000 mt/year green methanol unit, and supporting facilities such as 360,000 mt/year biomass pretreatment. The biomass pretreatment plant produces 360,000 mt of biomass white pellets annually. The green methanol system is equipped with 3×1,000 Nm³/h electrolyser hydrogen production equipment, 60,000 Nm³ hydrogen storage tanks, two 600 mt/day pressurised fluidised bed gasification units, and a 100,000 mt/year methanol synthesis unit. The wind farm installs ten 10 MW wind turbines with a rotor diameter of 230 m and a wheel hub height of 160 m, connected to the project's supporting 66 kV step-down substation via two 66 kV overhead lines, with corresponding public auxiliary works constructed simultaneously. Zhongke Yitan Energy Technology (Chifeng) Co., Ltd.: The Hexigten Banner wind and solar power hydrogen-to-methanol and SAF integration project received filing approval. The project is located in Bayanduhumu Gacha, Darihanwula Sumu, Hexigten Banner, Chifeng City, Inner Mongolia Autonomous Region. The project entity is Zhongke Yitan Energy Technology (Chifeng) Co., Ltd., with a total investment of 7.5 billion yuan. Construction scale and content: 1. Construction of one water electrolysis hydrogen production line, including water electrolysis hydrogen production equipment, gas-liquid separation equipment, purification equipment, etc., with an annual green hydrogen output of 62,500 mt; 2. Construction of one green methanol synthesis production line, including biomass gasification equipment, combined purification equipment, methanol synthesis equipment, etc., with an annual green methanol production of 500,000 mt; 3. Construction of one SAF synthesis production line, with an annual SAF production of 100,000 mt. Planned construction period: 2026/05–2028/12. Jiamusi Hanya New Energy Co., Ltd. : China Energy Engineering CEPDI North China Institute signed a contract for the feasibility study and survey design of the Heilongjiang Huanan County 1.2 GW off-grid wind power hydrogen production and 500 MW grid-connected wind power project. In the off-grid wind power hydrogen-to-methanol project, the total installed wind power capacity is 1.2 GW, using 48 units with a single-unit capacity of 6.25 MW and 90 units with a single-unit capacity of 10 MW. The annual power generation of the wind farm is approximately 3.7 billion kWh, with approximately 3,081 annual equivalent full-load hours. Supporting construction includes four 220 kV step-up substations and ESS. After wind power hydrogen production, the hydrogen reacts with captured biomass carbon sources to produce methanol, with an annual methanol output of approximately 300,000 mt. Policy Review 1. The General Office of the Ministry of Industry and Information Technology and other departments jointly issued the Guidelines for Green Design of Industrial Products (2026 Edition). The Guidelines mention: Developing green design solutions. Focusing on industries such as automobiles, construction machinery, machine tools, bearings, wind power equipment, hydrogen energy equipment, PV, lithium batteries, household appliances, packaging, detergents, textiles, biomanufacturing, methanol, and tyres, and targeting key directions of green design, the aim is to develop green design solutions that are technologically advanced, economically feasible, and supply-demand compatible, forming a batch of replicable and scalable exemplary green design solutions. The goal is to cultivate green design solution providers with high professional standards and strong service capabilities, and to build a virtuous ecosystem of "demand-driven — solution development — industrial application". 2. Opinions of the General Office of the CPC Central Committee and the General Office of the State Council on Achieving Higher-Level and Higher-Quality Energy Conservation and Carbon Reduction. The opinions aim to use transport energy conservation and carbon reduction and green energy transition as two key drivers, coordinate low-carbon development with energy security, and accelerate the construction of a clean, low-carbon, safe, and efficient modern energy and transport system. Enterprise Updates Shanghai Yigong Hydrogen Energy Technology Co., Ltd.: The independently developed hydrogen compressor station unit completed delivery and shipment. The equipment will serve as the core power equipment for a hydrogen refueling station, applied in the Sinopec Shanghai Pudong Airport hydrogen refueling station project, providing high-pressure hydrogen refueling services for fuel cell logistics vehicles and tow tractors at the airport, and supporting the construction of a green, low-carbon, and smart integrated energy system at Pudong Airport. Lineng New Energy Technology (Beijing) Co., Ltd.: Hanshan County signed a contract with Lineng New Energy Technology (Beijing) Co., Ltd. for a carbon paper diffusion layer substrate material R&D and manufacturing project. This project is a localisation project for key materials of hydrogen fuel cells and will be established in Hanshan, Anhui Province. Jiangsu Trina Green Hydrogen Technology Co., Ltd.: A batch of 1,000 Nm³/h alkaline hydrogen production equipment was delivered in a centralised shipment. The equipment has arrived at a large-scale domestic green ammonia-methanol project site and is about to commence installation. All electrolysers delivered in this batch were shipped after passing detection at the hydrogen production testing platform at the Yangzhou base. The platform covers approximately 2,000 m², is compatible with full-range hydrogen production system testing from 500 to 2,000 Nm³/h, has cumulatively completed testing of equipment exceeding 50 MW in scale, and possesses full-process performance verification and three-tier safety management capabilities. Suzhou CPU Hydrogen Power Technology Co., Ltd. : The independently developed 100 Nm³ containerised integrated hydrogen production system completed factory detection and was officially shipped to Sichuan, where it will support a local central state-owned enterprise hydrogen production project. The equipment adopts a modular integrated design, integrating electrolysis hydrogen production, purification, and intelligent management processes into a standard container, offering the advantages of convenient transport and rapid installation, enabling "installation upon arrival, commissioning upon installation." The equipment is customised to operate 8,000 hours annually, producing 72 mt of high-purity hydrogen per year. All performance parameters meet the stringent requirements of central state-owned enterprises, ensuring stable and continuous industrial hydrogen supply. Huadian (Ningxia) Energy Co., Ltd.: The tender for the preparation of the planning report for the Ningdong and surrounding areas green hydrogen coupled coal chemical integration project was officially released. The project covers the Ningxia Ningdong Energy and Chemical Industry Base and surrounding areas of Lingwu and Wuzhong, as well as the Ordos region of Inner Mongolia, planning to build a 10kt-level green hydrogen coupled coal chemical and cross-regional pipeline hydrogen transport system. The core project scale includes approximately 1.5 GW of new energy installed capacity, with supporting annual green hydrogen production of approximately 40,000 mt, for deep coupling with traditional coal chemical industries. According to the announcement, the winning bidder is required to complete the full set of planning reports within 180 days after the contract takes effect. The tender scope covers entire industry chain research, including regional industrial foundations, green hydrogen supply-demand and economic analysis, hydrogen storage and transport systems, key project planning, feasibility of green electricity-to-hydrogen layout, and energy and electricity policy consultation for both Ningxia and Inner Mongolia. China Marine Bunker (PetroChina) Co., Ltd.: Windey Energy Technology Group and China Marine Bunker officially signed a strategic cooperation agreement. Qin Ling, General Manager of China Marine Bunker, and Cheng Chenguang, General Manager of Windey Energy Technology Group, attended the ceremony and witnessed the signing. Under the agreement, both parties will focus on the core business of green fuel consumption and sales, deepening collaboration and synergising efforts in key areas such as specification and standard formulation, pricing mechanism development, and logistics and transport systems. By integrating resources and leveraging complementary strengths, they aim to jointly enhance the core competitiveness of the green shipping industry chain and inject new momentum into promoting high-quality transformation and green, low-carbon development of the shipping industry. Beijing Mingyang Hydrogen Energy Technology Co., Ltd.: Officially signed a series of hydrogen production equipment sales contracts with Spanish company KT. Under the agreement, Mingyang Hydrogen Energy will serve as the core hydrogen energy equipment and solution provider, supplying Spanish company KT with 1 MW AEM and 25 MW ALK complete hydrogen production systems and related supporting services, jointly opening a new chapter in in-depth Sino-Spanish green hydrogen industry cooperation. Hangyang Group Co., Ltd.: The company recently announced plans to invest in establishing Ordos Hangyang Gas Co., Ltd. (tentative name), constructing a new 70,000 Nm³/h air separation unit at the Dalu Industrial Park in Jungar Banner, Ordos City, Inner Mongolia, to provide critical gas supply for the Phase II expansion project of Inner Mongolia Tianrun Green Energy Chemical's 300,000 mt synthetic ammonia and 520,000 mt urea project. The park is a national-level modern coal chemical industry base in Inner Mongolia. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) published patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing a Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity approaching that of platinum-based materials. Technology Footprint / Technical Specifications 1. Petronor and H2SITE collaborated to advance membrane technology for hydrogen production, enhancing high-purity hydrogen and low-carbon efficiency in refining. 2. Dalian University of Technology designed an electron pump catalyst with an asymmetric photo-responsive structure, maintaining asymmetry in electron distribution. 3. The research team from the School of Electrical Engineering and the State Key Laboratory of Electrical Insulation and Power Equipment at Xi'an Jiaotong University successfully developed the Ru/Ti₃C₂Oₓ@NF bifunctional electrocatalyst for seawater electrolysis. 4. The team led by Professor Yu Ying at Central China Normal University developed a three-dimensional hierarchical nanostructured catalytic electrode as a core component for seawater hydrogen production. 5. Johnson Matthey and Syensqo achieved efficient recovery and recycling of platinum group metals and ionomers from PEM fuel cells and electrolysers, significantly reducing the carbon footprint.

Capacity side, according to incomplete statistics, China's alkaline electrolyzer market remained at 43.77 GW, the PEM electrolyzer market remained at 2.7 GW, with no new capacity additions for the time being. No offline public delivery information was available this week. Project-related updates: Guangdong Liquid Sunshine Green Energy Co., Ltd.: The company officially signed a memorandum of cooperation with Johnson Matthey, a global leader in sustainable technology, and East China Engineering Science and Technology Co., Ltd. in Hefei. The three parties will jointly advance the implementation of the 150,000 mt biomass green methanol demonstration project invested and constructed by Liquid Sunshine Green Energy in Tiandong County, Guangxi. Jiang Xi, Executive President of Liquid Sunshine Green Energy, Zhong Ling, General Manager of Johnson Matthey China, and Meng Chenzhou, General Manager of East China Engineering, completed the signing on behalf of their respective parties. Zhongneng Kehang (Baotou) New Energy Technology Co., Ltd.: The annual 300 million m³ green electricity-to-hydrogen production project received filing approval. The project is located in Baotou City — Guyang County — Jinshan Economic Development Zone, Guyang County, Baotou City, Inner Mongolia Autonomous Region, with a total investment of 500 million yuan. Construction scale and content: 18 new hydrogen production lines, office buildings, workshops, shift dormitories, etc. Planned construction period: 2026/08–2028/07. Guoneng Xinjiang Electric Power Co., Ltd.: In collaboration with the New Energy Research Institute, the company successfully completed China's first 660 MW coal-fired boiler hydrogen co-firing pilot test, achieving a maximum hydrogen blending ratio of 45%, marking a pilot-scale breakthrough in coal-hydrogen co-combustion and pure hydrogen combustion. Heilongjiang Jiayirongyuan Green Chemical Co., Ltd.: Jidong County, Jixi City held the groundbreaking ceremony and technical exchange conference for the 300,000 mt green hydrogen-methanol-aviation fuel chemical co-production project. The project is invested and constructed by Heilongjiang Jiayirongyuan Green Chemical Co., Ltd., a subsidiary of Jiaze New Energy Co., Ltd., with a planned total investment of approximately 3.557 billion yuan. The core of the project is to build an annual 300,000 mt green methanol production site and establish a sustainable aviation fuel (SAF) sustainable development system. China Energy Engineering Overseas Investment Co., Ltd.: The commissioning ceremony for Central Asia's first AEM electrolysis hydrogen production research equipment was grandly held in Astana, the capital of Kazakhstan, marking a substantive breakthrough in joint R&D and application demonstration of key green hydrogen technologies between China and Kazakhstan. The equipment was jointly developed by the Overseas Investment Company and Shanghai Jiao Tong University, with the Overseas Investment Company also responsible for coordinating project investment and application scenario development. Leveraging advanced AEM electrolysis hydrogen production technology, the project demonstrates promising application prospects in improving hydrogen production efficiency and reducing system costs. Haiwang (Ningdong) New Materials Co., Ltd.: Its annual 5,000 mt carbazole project successfully completed trial production with feedstock. The project not only continuously produced high-grade products but also achieved batch delivery to multiple clients across different industries. It is understood that Haiwang (Ningdong) New Materials Co., Ltd. is a project jointly funded by Beijing Haiwang Hydrogen Energy Technology Co., Ltd. and Ningxia Ningdong Technology Venture Capital Co., Ltd. The company is located in the New Materials Park of Ningxia Ningdong Energy and Chemical Industry Base, covering 65 mu of land, and construction of an annual 5,000 mt-class continuous carbazole production line has been completed. Zhongneng Jian Bochuang Green Fuel (Shenyang) Co., Ltd.: China's first 500,000 mt-class biomass green methanol-oil demonstration project — the Liaoning Shenyang 500,000 mt-class wind and solar power hydrogen production integrated with biomass green methanol-oil demonstration project — officially commenced construction. The demonstration project has a total investment of 32 billion yuan, fully leveraging the local unique resource advantages of "wind power + biomass," and is committed to building an annual 500,000 mt biomass green methanol-oil project, equipped with 2 GW centralized wind power, with an estimated annual biomass demand of approximately 3 million mt. It is understood that the project will be advanced in three phases. After Phase I completion, annual green methanol production of 100,000 mt will be achieved; after Phase II completion, annual green aviation fuel production of 300,000 mt will be achieved; after Phase III completion, annual green ammonia production of 100,000 mt will be achieved, at which point the overall capacity target of 500,000 mt-class green fuel will be fully met. Xindao Hydrogen Energy Technology (Baotou) Co., Ltd.: The company co-hosted an industry-academia-research cooperation signing ceremony with the School of Chemistry and Chemical Engineering of Inner Mongolia University of Science and Technology. As a wholly-owned subsidiary of Jiangsu Xindao Energy Group, Xindao Hydrogen Energy Technology (Baotou) Co., Ltd. is actively engaged in the construction of a hydrogen-based green fuel off-grid green electricity direct-connection project, aiming to achieve annual targets of 1.485 billion kWh of green electricity, 291 million m³ of green hydrogen, and 200,000 mt of green methanol. The company is committed to promoting the commercialization and application of key technologies for "electricity-hydrogen-carbon" integrated high-efficiency balanced synergy, and has reached a cooperation agreement with a well-known South Korean shipping enterprise on long-term green methanol supply and sales. Policy Review 1. Notice of the Shaanxi Provincial People's Government on Issuing the 15th Five-Year Plan for National Economic and Social Development. The document stated that hydrogen-related industrial clusters should be accelerated with a focus on Yulin, Xi'an, and other areas, building a full industry chain of hydrogen energy covering "production, storage, transportation, refueling, and utilization," reducing hydrogen production costs, and expanding hydrogen energy application scenarios. 2. Notice of the Guangzhou Municipal Administration and Comprehensive Law Enforcement Bureau on Issuing the Guidelines for Applying for Special Subsidies for Hydrogen Refueling Station Construction and Operation in Guangzhou. 3. The People's Government of the 8th Division Shihezi City of the Xinjiang Production and Construction Corps released the Administrative Measures for Hydrogen Energy Industry Development of the 8th Division Shihezi City (Trial) (Draft for Public Comments). The document stated that the safety management of hydrogen energy product production, storage, transportation, filling, and use within the administrative area of the Division and City shall be governed by these measures. Where other laws and administrative regulations provide otherwise, those provisions shall apply. Enterprise Updates Zibo Wangji Transportation Co., Ltd.: The first batch of 40 hydrogen-powered heavy-duty trucks were lined up and officially put into operation. These hydrogen heavy-duty trucks are all equipped with Guohong Hydrogen Energy's fuel cell systems and will primarily undertake trunk-line transportation of bulk materials such as ore powder, cement powder, and coal ash. Under typical conditions of a 100 km one-way trip with a full load of 40 mt, the vehicles can complete refueling in just 20 minutes using the supporting skid-mounted hydrogen refueling station. Sichuan Energy Investment Kuanzhai Green Supply Chain Co., Ltd.: The company released a competitive inquiry for the 2026–2027 comprehensive leasing service procurement project for five 49 mt hydrogen heavy-duty trucks. The tender announcement showed that the procurement covers comprehensive leasing services for five 49 mt hydrogen heavy-duty trucks (including tractor + semi-trailer + driving service + insurance + maintenance). Lease period: the contract term is one year in total, with the initial period of 3 months signed first, followed by contract renewals based on actual demand. This project does not accept consortium participation in the inquiry. Changsha Municipal Bureau of Industry and Information Technology: The bureau released the transaction announcement for the hydrogen energy industry foundation and comprehensive application scenario research service project. The announcement showed that the Fifth Electronics Research Institute of the Ministry of Industry and Information Technology successfully won the bid, with a winning amount of 192,000 yuan. Guangdong Yuntao Hydrogen Energy Technology Co., Ltd. : The company officially reached a sales agreement with Guangzhou Yue'ancheng Trading Co., Ltd., under which Yuntao Hydrogen Energy will deliver 100 hydrogen heavy-duty trucks to Yue'ancheng Trading. It is understood that the 100 dump trucks in this successful order came from the key account development department of Yuntao Hydrogen Energy's dump truck business division, and will comprehensively support Yue'ancheng Trading's core transportation operations. To meet its high-frequency, high-volume transportation needs, these vehicles are equipped with fuel cell systems independently developed by Yuntao Hydrogen Energy, featuring advantages such as a driving range of up to 400 km, hydrogen refueling time of no more than 15 minutes, peak power of 355 kW, and payload capacity exceeding 14 mt. Shanghai Hydrogen Maple Energy Technology Co., Ltd.: The company officially issued a certification to CSSC 712 Research Institute, marking a key breakthrough in China's marine SOFC technology and entering a new stage of standardized and industrialized development. Suzhou Qingqiji Environmental Protection New Energy Co., Ltd.: Following its successful bid for the Sinopec Group Zhongtian Hechuang Ordos coal chemical project and securing the first batch order of 8 electrolyzers, the company won additional orders for the same project in subsequent months. Specifically, after the initial bid win, Qingqiji leveraged its strengths to secure an additional order of 8 alkaline water electrolysis hydrogen production electrolyzers for the Zhongtian Hechuang project four months later, making it the supplier with the largest tied share (16 electrolyzers in total) in the project. It is understood that the Zhongtian Hechuang wind and solar power hydrogen production integration project is not only Sinopec Group's second large-scale renewable energy hydrogen production project globally, but also a landmark project in China's hydrogen energy sector. School of Materials Science and Engineering, Shanghai Jiao Tong University: The first AEM hydrogen production–magnesium-based solid-state hydrogen storage integrated system, independently developed by its Hydrogen Science Center, was officially commissioned in Kazakhstan. The system integrates two core technologies — efficient hydrogen production and safe hydrogen storage — achieving deep intelligent coupling of hydrogen production and storage. It employs non-precious metal, low-cost green electricity dynamic direct-connection hydrogen production and directly delivers hydrogen at low pressure to the magnesium-based solid-state hydrogen storage module, eliminating high-pressure compression and cryogenic liquefaction steps, pioneering a new pathway for large-scale green hydrogen applications. ITM Power Plc: UK electrolyzer producer ITM Power Plc (LON:ITM) secured government funding of £86.5 million ($115.8 million/€99.3 million). The funding includes national equity investment and grants, and will support the construction of a 1 GW production line for its next-generation Chronos electrolyzer stack. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) published patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity approaching that of platinum-based materials. Technology Footprint / Technical Specifications 1. The team led by Professor Yu Ying at Central China Normal University developed a three-dimensional hierarchical nanostructured catalytic electrode, a core part for seawater hydrogen production. 2. Dalian University of Technology designed an electron pump catalyst with an asymmetric photo-responsive structure, maintaining asymmetry in electron distribution. 3. A research team from the School of Electrical Engineering and the State Key Laboratory of Electrical Insulation and Power Equipment at Xi'an Jiaotong University successfully developed a Ru/Ti₃C₂Oₓ@NF bifunctional electrocatalyst for seawater electrolysis. 4. Johnson Matthey and Syensqo achieved efficient recovery and recycling of platinum group metals and ionomers from PEM fuel cells and electrolyzers, significantly reducing the carbon footprint. 5. Teams from Xi'an Jiaotong University and Peking University jointly developed a novel osmium-based catalyst, significantly improving AEM water electrolysis hydrogen production efficiency and economics, facilitating large-scale low-cost green hydrogen production.

Capacity side, according to incomplete statistics, China's alkaline electrolyzer market remained at 43.77 GW, the PEM electrolyzer market remained at 2.7 GW, with no new capacity additions for the time being. Sungrow Hydrogen's alkaline electrolyzer systems and proton exchange membrane electrolyzer systems were simultaneously delivered to Oman, Europe, and South America; Trina Green Hydrogen delivered multiple sets of second-generation Tianqing series 1,000 Nm³/h alkaline electrolyzers to green hydrogen-ammonia-methanol projects in China; Hande completed the delivery of one set of 1 Nm³ PEM hydrogen production system to a Chinese university. Project-related developments: Shandong Energy Group Inner Mongolia Branch: The winning bid candidates for the 2026 Shenglu Power Plant hydrogen production station electrolyzer project were publicly announced. The first winning bid candidate was Beijing Mingyang Hydrogen Energy Technology Co., Ltd., and Tianjin Dalu Hydrogen Production Equipment Co., Ltd. ranked second. CNMC Orient Tantalum Industry: For the 50 m³ electrolytic hydrogen production and purification system, the first winning bid candidate was Tianjin Dalu Hydrogen Production Equipment Co., Ltd. with a bid price of 1.68 million yuan. The second and third candidates were Shenzhen Wenshi Hydrogen Energy Technology Co., Ltd. and Beijing Zhongdian Fengye Technology Development Co., Ltd., with bid prices of 1.79 million yuan and 1.99 million yuan, respectively. Beijing Zhongdian Fengye Technology Development Co., Ltd.: Officially signed a strategic cooperation framework agreement with Haitai New Energy. The in-depth cooperation will focus on five key areas: first, integrated development of PV-to-hydrogen systems to create standardized solutions; second, advancing integrated wind-solar-storage-green hydrogen projects to build benchmark projects in regions of China rich in wind and solar resources; third, conducting technology R&D and process optimization to overcome key technologies and jointly develop new energy hydrogen production process packages; fourth, leveraging both parties' resources for marketing and sales to jointly expand China and non-China markets; fifth, jointly applying for scientific research and industrial support projects and participating in the formulation of industry standards. CNOOC (Shanxi) Precious Metals Co., Ltd., Jinzhong City: Its Shanxi Province's first MW-class proton exchange membrane (PEM) water electrolysis hydrogen production unit was successfully commissioned. Zaoyang Tongda Passenger Transport Co., Ltd.: Issued a tender announcement for the procurement of 20 hydrogen energy buses. The procurement covers 20 hydrogen energy buses with a maximum price limit of 21 million yuan. The project does not accept consortium bidding. Jiangsu Guofu Hydrogen Energy Technology Equipment Co., Ltd.: Announced the signing of an agreement with its affiliated company GF Hydrogen Africa Sarl to provide a 20 MW green hydrogen production system for Morocco, with a total consideration of approximately $6.2 million. China Coal Shaanxi Energy Chemical Group Co., Ltd.: Published the transaction result announcement for the feasibility study report compilation service for the China Coal Shaanxi Xi'an Kang green electricity-coupled biomass-to-green methanol integration project. The supplier is Hualou Engineering Technology Co., Ltd. Inner Mongolia Green Hydrogen Steel Union Technology Co., Ltd.: Its green electricity-green hydrogen shaft furnace reduction-electric furnace short-process all-green steel production line project released the winning bid announcement for the preliminary survey and mapping portion. The winning bidder was Tianjin Geological Engineering Survey and Design Institute Co., Ltd., with a winning bid amount of 3.0362 million yuan. It is reported that the tender for the civil construction portion of the project was completed in February. Inner Mongolia Huadian Huayang Hydrogen Energy Technology Co., Ltd.: The winning bid result for the survey and design service for the wind-solar-storage portion of the Inner Mongolia Huadian Damao Banner 1 million kW wind-solar-to-hydrogen integration project was announced. Power supply engineering: total new energy installations of 1,000 MW, including 700 MW wind power and 300 MW PV, with supporting construction of one 100 MW/200 MWh LFP battery ESS power station, two 220 kV step-up substations, access roads, collector lines, and other equipment and facilities. Hydrogen production plant: construction of 88 units of 1,000 Nm³/h water electrolysis hydrogen production equipment and supporting facilities, with an annual hydrogen output of 547 million Nm³; supporting construction of one 220 kV hydrogen production main step-down substation and other facilities and equipment. The total project investment is 6.7645 billion yuan, with 30% self-owned capital. Ordos Hanxia New Energy Co., Ltd.: At the hydrogen production plant of the Narisong PV-to-hydrogen industrial demonstration project in Jungar Banner, Ordos, Inner Mongolia Autonomous Region — the site of China's first 10 kt-class PV-to-hydrogen project — the first truckload of high-purity green hydrogen meeting the 99.999% national standard was successfully dispatched after completing the filling operation, marking the first shipment of 2026. Policy Review 1. The National Development and Reform Commission issued the "Standards for Determining Major Accident Hazards in the Electric Power Sector and Regulations on Governance, Supervision and Administration," Order No. 41 of 2026. The document states that under the major hazard determination standards, any of the following conditions occurring in the power grid or power equipment and facilities shall be determined as a major hazard, including: for DC ±800 kV and AC 1000 kV and above transformers (converter transformers), monitored acetylene content reaching 0.000005 liters per liter or weekly increment exceeding 0.000002 liters per liter, or hydrogen content exceeding 0.00045 liters per liter, or total hydrocarbon content exceeding 0.00045 liters per liter. 2. The Henan Provincial Development and Reform Commission issued a notice on the list of key construction projects in Henan Province for 2026. The document states that Henan Province has 1,418 provincial key projects for 2026 with a total investment of approximately 3.2 trillion yuan, aiming to complete annual investment of over 1 trillion yuan. 3. The General Office of the Gansu Provincial People's Government issued a notice on the implementation plan for accelerating scenario cultivation and opening up to promote large-scale application of new scenarios. The document states, in the clean energy sector, the plan is to promote the coordinated layout of "generation-grid-load-storage-production," accelerate the construction of industrial cluster scenarios for wind power, PV, concentrated solar power, hydrogen energy, energy storage equipment, and new energy battery industries. A number of green electricity direct-connection scenario projects are expected to be promoted, and new energy consumption models such as virtual power plants and smart microgrids are expected to be popularized. The plan is to accelerate the deployment of green electricity-to-hydrogen scenarios through multiple models including new energy direct supply, off-grid operation, and green electricity trading, expand the diversified application of green hydrogen in industry, transportation, energy storage, and power generation, and strive to build the Hexi "Green Hydrogen Corridor" innovation scenario. Enterprise Developments Shanghai Hydrogen Maple Energy Technology Co., Ltd.: Partnered with US-based Apollo Mechanical Contractors to secure a commercial order for low-temperature solid-state hydrogen storage technology from Klickitat Valley Health Hospital in Washington State, US. Its independently developed titanium-based solid-state hydrogen storage technology successfully entered the US application market. AiH2 Technology (Group) Co., Ltd.: Officially signed a cooperation agreement with Chongqing Wansheng Economic and Technological Development Zone. Both parties will leverage the by-product hydrogen resources of the Wansheng Economic and Technological Development Zone to build the largest kt-class magnesium-based solid-state hydrogen supply and storage base in south-west China. Huawang (Qingdao) Hydrogen Energy Technology Group Co., Ltd. : The groundbreaking ceremony for the hydrogen refueling station construction project at Qingdao Hydrogen Energy Industrial Park was officially held in Boli Town, West Coast New Area, Qingdao. Panzhihua Huacheng New Energy Co., Ltd. : The pre-acceptance work for the Madian hydrogen refueling station's liquid hydrogen and gaseous hydrogen expansion project was successfully completed. China Classification Society (CCS) Wuhan Branch : Officially issued a certificate of approval to CSSC 712 Research Institute, marking a key breakthrough in China's marine SOFC technology and entering a new stage of standardized and industrialised development. Yunnan Energy Investment Weixin Energy Co., Ltd.: Issued an inquiry letter for the procurement of hydrogen storage tanks for the turbine department, with a procurement quantity of 4 units. AECC Hunan Aviation Powerplant Research Institute: Its independently developed MW-class hydrogen-fueled aviation turboprop engine AEP100 successfully completed its maiden flight. The flight lasted 16 minutes and covered a distance of 36 kilometers. Shandong Hi-Speed Service Development Group Co., Ltd.: The winning bid candidates for the Phase II PEM water electrolysis hydrogen production and energy storage portion of the hydrogen highway and zero-carbon service area key technology integration and demonstration Gaomi Service Area hydrogen refueling station comprehensive utilization project were publicly announced. According to the announcement: the first winning bid candidate was Jiangsu Guofu Hydrogen Energy Technology Equipment Co., Ltd. with a bid price of 21.27 million yuan; the second winning bid candidate was Luyu Hydrogen Energy (Xiamen) Technology Co., Ltd. with a bid price of 21.95 million yuan; the third winning bid candidate was Jiangsu Huade Hydrogen Energy Technology Co., Ltd. with a bid price of 21.75 million yuan. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) published patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity approaching that of platinum-based materials. Technology Footprint / Technical Specifications 1. The team led by Professor Yu Ying at Central China Normal University developed a three-dimensional hierarchical nanostructured catalytic electrode, a core part for seawater hydrogen production. 2. Dalian University of Technology designed an electron pump catalyst with an asymmetric photo-responsive structure to maintain the asymmetry of electron distribution. 3. The research team from the School of Electrical Engineering and the State Key Laboratory of Electrical Insulation and Power Equipment at Xi'an Jiaotong University successfully developed a Ru/Ti₃C₂Oₓ@NF bifunctional electrocatalyst for seawater electrolysis. 4. Johnson Matthey and Syensqo achieved efficient recovery and recycling of platinum group metals and ionomers from PEM fuel cells and electrolyzers, significantly reducing the carbon footprint. 5. Teams from Xi'an Jiaotong University and Peking University jointly developed a novel osmium-based catalyst, significantly improving AEM water electrolysis hydrogen production efficiency and economics, facilitating the scale-up of low-cost green hydrogen.

Capacity side, according to incomplete statistics, China’s alkaline electrolyser market remained at 43.77 GW and the PEM electrolyser market remained at 2.7 GW, with no new capacity added. There was no offline delivery information this week. Project-related updates: PetroChina Shenzhen New Energy Research Institute Co., Ltd.: It issued a processing tender for its brine hydrogen production electrolyser. Funding for the tender project was self-raised by the enterprise, with a contribution ratio of 100%. It is understood that procurement of necessary raw materials and components included, but was not limited to, integrated electrolyser materials such as electrodes, end plates, bipolar plates, separators, and gaskets. Suppliers were also required to provide essential auxiliary accessories for the electrolyser, including cooling towers, chillers, and potassium hydroxide, in accordance with the purchaser’s requirements. Guangxi University of Science and Technology: It procured a hydrogen-fuel low-speed hybrid autonomous vehicle experimental system from Hefei Zhongke Shengu Technology Development Co., Ltd., with a transaction price of 844,800 yuan. Dalian Institute of Chemical Physics, Chinese Academy of Sciences: It issued a procurement notice for a 500 W hydrogen fuel cell testing platform. It is understood that the testing platform will be used for performance, efficiency, and durability testing of 500 W-class hydrogen fuel cell stacks and single cells. CGN New Energy Holdings Co., Ltd.: The Jilin Hydrogen Future Energy Factory Integrated Energy Project issued a procurement notice for an energy-saving assessment report. It is understood that the project had successively completed procurement for reports including water resources assessment, feasibility study, land-use pre-examination, hydrogen pipeline design, and power market analysis. Shaanxi Hydrogen Energy Industry Development Co., Ltd.: It released a public notice on the social stability risk assessment survey for Phase I of the 30 GW new energy green hydrogen production and hydrogen pipeline project (Inner Mongolia section). According to the notice, the project is located in Tuke Town, Uxin Banner, Ordos, Inner Mongolia Autonomous Region. It is understood that the hydrogen pipeline route is 19.6 km long, with a design pressure of 6.3 MPa, and uses L290QH steel pipe material (seamless steel pipe). Total project investment is about 449.38 million yuan. Allocated by route length (with the Uxin Banner section accounting for 53.4%), the estimated investment within the area is about 239.97 million yuan. The project construction period is 2026–2028. PetroChina Shenzhen New Energy Research Institute Co., Ltd. : Its hydrogen energy R&D department plans to custom-process one set of MW-class brine hydrogen production electrolyser equipment, with hydrogen production capacity of no less than 200 Nm³/h. Tender scope: procurement of one set of brine hydrogen production electrolyser equipment. Shanghai Electric Group Company Limited: It officially signed the Phase I project of the Inner Mongolia Baofeng coal-based new materials wind and solar power hydrogen production project. According to the agreement, Shanghai Electric will provide eight 1,250 Nm³/h alkaline electrolysers, the world’s largest single-set 5,000 Nm³/h separation and purification system, and an industry-first outdoor three-dimensional layout solution. Suqian Green Energy Hydrogen Innovation Technology Co., Ltd.: During the 5th China International Hydrogen Energy and Fuel Cell Industry Exhibition, Suqian Green Energy Hydrogen Innovation Technology Co., Ltd. and China Power Engineering Consulting Group Northwest Electric Power Design Institute Co., Ltd. held a strategic cooperation signing ceremony at the China National Convention Center in Beijing for a domestic MW-class AEM electrolyser testing project. Shenneng Northern Energy Holdings Co., Ltd.: It issued procurement for the preparation of a feasibility study report for the Etuoke Banner wind power hydrogen production integration green application project (Phase II), covering hydrogen production by water electrolysis and SAF synthesis. It is understood that the Etuoke Banner 505 MW wind and solar power hydrogen production integration green ammonia synthesis project (Phase I) was successfully selected in October 2025 as one of the first batch of hydrogen energy pilot projects in China’s energy sector, and is planned to be fully completed and put into operation in August 2026. Policy Review​ 1. Notice of the Ministry of Industry and Information Technology and three other departments on issuing the Implementation Plan for the High-Quality Development of Energy-Saving Equipment (2026–2028). The document stated that by 2028, mass-produced water electrolysis hydrogen production equipment should achieve DC power consumption of less than 4.2 kWh/Nm³ under rated operating conditions. 2. Notice of the General Office of the National Energy Administration on issuing the Guidelines for the Establishment of 2026 Energy Industry Standard Plans. The key areas for the 2026 energy industry standard plan include eight items. In the hydrogen energy field, key directions include fundamentals and general applications, hydrogen production and conversion, hydrogen storage and transportation, hydrogen refuelling, hydrogen power and power generation, and hydrogen equipment. 3. Ministry of Commerce Announcement No. 18 of 2026: announcement of the launch of a trade barrier investigation into US practices and measures that hinder trade in green products. Preliminary evidence and information obtained by the Ministry of Commerce showed that the US had implemented multiple practices and measures in trade-related areas that hinder trade in green products, including but not limited to restricting exports of green products to the US, slowing new energy deployment, and restricting technology cooperation related to green products. Enterprise Updates​​ Xieqing (Shanghai) New Energy Technology Co., Ltd.: Its hydrogen-powered drone H100 was officially put into use for material transport by China Post in Suibin County/Bayan County, Heilongjiang, entering the stage of regularised operations. Henan Junheng Industrial Group Biotechnology Co., Ltd. : Five reactors for its 1 million mt/year waste oil and fat processing sustainable aviation fuel project were successfully hoisted into place. Hubei Yingteli Electric Co., Ltd.: The two sets of thousand-cubic-metre-class IGBT hydrogen production power supplies it provided were successfully applied in South Korea’s first off-grid green hydrogen production project. Ordos Hanxia New Energy Co., Ltd. : At the hydrogen production plant of the Narisong PV hydrogen production industry demonstration project in Jungar Banner, Ordos, Inner Mongolia Autonomous Region, the first truckload of 99.999% national-standard high-purity green hydrogen in 2026 was successfully dispatched after filling operations were completed. Hydshine Energy (Shenzhen) Co., Ltd.: It announced the completion of its Pre-B round of financing. This round was exclusively strategically invested by the Shenzhen Energy Storage Fund. It is understood that the funds will be mainly used for global market expansion, next-generation product R&D, and industrialisation capabilities. Shanghai Hydrogen Energy Group Co., Ltd.: It was successfully recognised as a “Shanghai Specialised, Sophisticated, Distinctive and Innovative SME” in the first batch list of Shanghai specialised and sophisticated small and medium-sized enterprises. Tianneng Battery Group Co., Ltd. : During the Tianneng 2026 Spring New Product Launch held in Tianjin, Tianneng signed strategic cooperation agreements with multiple partners on hydrogen fuel cells and solid-state batteries. In hydrogen energy, Tianneng joined hands with Guangdong Vision Holding Group and Tianjin Weida Space Technology to deepen the deployment of hydrogen-powered shared bicycle scenarios and promote the rollout of this model in more cities. ​​Patent Applications​​ 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences​​ (China) disclosed patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. ​​2. Johnson Matthey​​ (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity close to platinum-based materials. Technology Footprint/Technical Specifications​​ 1. Professor Yu Ying’s team at Central China Normal University developed a three-dimensional graded nanostructured catalytic electrode, a core part for seawater hydrogen production. 2. Dalian University of Technology designed an electron-pump catalyst with an asymmetric photoresponse structure to maintain asymmetry in electron distribution. 3.​​Research teams from the School of Electrical Engineering at Xi’an Jiaotong University and the State Key Laboratory of Electrical Materials and Electrical Insulation successfully developed a Ru/Ti3C2Ox@NF bifunctional electrocatalyst for seawater electrolysis. 4. Johnson Matthey and Syensqo achieved efficient recycling and reuse of platinum group metals and ionomers in PEM fuel cells and electrolysers, significantly reducing the carbon footprint. 5. Teams from Xi’an Jiaotong University and Peking University jointly developed a new-type osmium-based catalyst, significantly improving the efficiency and economics of AEM water electrolysis hydrogen production and supporting the scale-up of low-cost green hydrogen.

Capacity side, according to incomplete statistics, China’s alkaline electrolyzer market remained at 43.77 GW and the PEM electrolyzer market remained at 2.7 GW, with no new capacity added. There was no offline delivery information this week. Project-related updates: Binyang County Haoyuan Industrial Investment Co., Ltd.: Competitive consultation was launched for the Binyang County Green Electricity Hydrogen Production Pilot Construction Project (procurement of hydrogen production equipment and facilities). The budget amount was 2.85 million yuan, with a maximum price limit of 2.85 million yuan. The project entity was Binyang County Haoyuan Industrial Investment Co., Ltd. It is understood that the company is a wholly owned subsidiary of Binyang County Kunpeng Water Affairs Co., Ltd. Kunpeng Water Affairs has registered capital of 448.6 million yuan, and its ultimate controller is the Binyang County Finance Center. Datang Inner Mongolia Duolun Coal Chemical Co., Ltd.: Inquiry-based procurement was conducted for the feasibility study and green methanol certification consulting technical services for the CNCEC Duolun coal chemical coal-based process biomass co-firing coupled with green electricity green methanol production project. It is understood that the Datang Duolun 150,000-kW integrated wind and solar power hydrogen production demonstration project was China’s first medium-to-large-scale technological demonstration project for off-grid wind and solar power hydrogen production deeply coupled with coal chemicals. It was invested in and constructed by Datang Duolun Ruiyuan New Energy Co., Ltd., with a total investment of about 1.3 billion yuan. Construction officially began in November 2023, construction officially began in November 2023, hydrogen was successfully produced on December 29, 2024, and the project was officially connected to the grid and put into operation on January 17, 2025. Shaanxi Construction Engineering Installation Group Co., Ltd.: The Guyang-Baiyun Obo gas transmission pipeline project, undertaken by Shaanxi Installation Group, achieved important progress, with its Guyang initial station and valve chamber successfully passing completion acceptance. It is reported that the gas transmission pipeline project has a 20% hydrogen blending transmission capacity and is a key planned construction project under the “County-to-County Coverage in Western Inner Mongolia” initiative in the Inner Mongolia Autonomous Region’s 14th Five-Year Plan for Oil and Gas Development. The pipeline has a total length of 125 km, starting from the Guyang initial station and running overall from south to north, successively passing through Guyang County, Darhan Muminggan Banner, and the Baiyun Obo mining district in Baotou City, and ultimately reaching Barun Industrial Park. PetroChina Shenzhen New Energy Research Institute Co., Ltd.: It released a processing tender for its brine hydrogen production electrolyzer. Funding for the tender project was self-raised by the enterprise, with a contribution ratio of 100%. It is understood that procurement of necessary raw materials and components includes, but is not limited to, integrated electrolyzer materials such as electrodes, end plates, bipolar plates, separators, and gaskets. Suppliers were also required to provide essential auxiliary electrolyzer accessories such as cooling towers, chillers, and potassium hydroxide in accordance with the purchaser’s requirements. Tianjin Saihong Environmental Engineering Co., Ltd.: A groundbreaking and pile foundation commencement ceremony was held in the Dagang Petrochemical Industrial Park of Tianjin Binhai New Area. It is understood that the project uses the polyploid giant reed “Lüzhou No. 1,” carefully cultivated by Ruihengmao Group, as its core raw material, successfully overcoming the bottlenecks of existing gasification technologies and the economic challenges of biomass raw materials. Tangshan Haitai New Energy Technology Co., Ltd.: recently entered into a strategic cooperation agreement with Beijing Shougang Gas Co., Ltd. During the meeting, Haitai New Energy gave a detailed presentation on the planning layout and current progress of its long-distance hydrogen pipeline project. The two sides then conducted in-depth discussions and exchanges on the development direction of the hydrogen energy industry and successfully signed a strategic cooperation agreement. In view of Shougang Gas’s continuously rising future demand for hydrogen, Haitai New Energy will leverage its comprehensive advantages in hydrogen transportation to provide Shougang Gas with stable and reliable green hydrogen supply services and comprehensive integrated solutions. Shanghai Juna New Material Technology Co., Ltd.: its water electrolysis hydrogen production electrode company, Juna Technology, completed a new round of financing, exclusively invested by CATL, which has become the company’s largest external institutional shareholder at present. Previously, Juna Technology had completed its first round of financing led by Lenovo Star and its second round led by Changjiang Innovation. This round of financing also marked the company’s first introduction of industrial capital. To date, the company has accumulated 8 external institutional shareholders. Shanghai Juna New Material Technology Co., Ltd.: formally signed a strategic cooperation agreement with Zhejiang Sunshine Green Hydrogen Technology Co., Ltd. This cooperation mainly focuses on the industrialisation and deployment of megawatt-class AEM electrolyzers. Leveraging its advanced JE series high performance AEM hydrogen production electrodes, Juna Technology will provide core component support for Sunshine Green Hydrogen in the R&D, testing, and scaled mass production of megawatt-class electrolyzers. Xinjiang Qingda Energy Technology Co., Ltd. : the environmental impact report for its integrated production line project with annual output of 120,000 mt of green hydrogen and 700,000 mt of green ammonia is planned for submission for approval and public disclosure. According to the disclosure, the project is a new-build project located in the western zone of Wusu Industrial Park and invested in and constructed by Xinjiang Qingda Energy Technology Co., Ltd., with a total investment of 4.1914 billion yuan. The project includes extensive construction content, specifically: six water electrolysis hydrogen production unit lines, each with annual output of 20,000 mt, to achieve annual output of 120,000 mt of green hydrogen; meanwhile, one ammonia synthesis unit line with annual output of 700,000 mt to produce 700,000 mt of green ammonia; in addition, one nitrogen production unit line with annual output of 560,000 KNm³ is also planned. In terms of auxiliary facilities, the project will build 6 electrolyzer workshops, 1 office building, 1 circulating water station, 1 central control room, 1 liquid ammonia tank farm, 1 hydrogen tank farm, 1 demineralised water station, and other supporting facilities, with total gross floor area of 127,083.72 m² and total site area of 330,883 m². The construction period is expected to be 12 months. In the water electrolysis hydrogen production segment, the project adopts the alkaline electrolyzer (ALK) hydrogen production process, equipped with 86 2,000-Nm³ electrolyzers, as well as 2 purification units and 2 gas-liquid treatment units, and is expected to produce 120,000 mt of hydrogen annually, mainly as raw material for ammonia synthesis. For the ammonia synthesis unit, the project will build one new unit adopting Casale axial-radial technology, with major equipment including ammonia compressors and synthesis towers, and is expected to produce 700,000 mt of liquid ammonia annually. CRRC Zhuzhou Electric Locomotive Research Institute Co., Ltd.: CRRC Zhuzhou Institute successfully won the bid for 8 water electrolysis hydrogen production systems for Phase I of Kaishan Group’s Kenya green fertilizer project. It is understood that this is the first export of CRRC electrolyzer products to Africa and also the world’s first project to produce green hydrogen/ammonia using geothermal new energy. The Kaishan fertilizer project uses geothermal steam from a Kenyan energy company to generate clean electricity, and then uses this clean electricity to produce hydrogen and green ammonia, ultimately producing more than 480,000 mt of green fertilizer. The hydrogen production section of the project uses a total of 90 sets of 1,000 Nm³/h. Xinqing Energy Technology (Fukang) Co., Ltd.: the EPC general contracting tender for the Xinqing Energy photovoltaic hydrogen production coupled resource clean utilisation low-carbon integrated project (chemical section) was recently released. It is reported that the project is located about 28 km east of Fukang City, Changji Prefecture, Xinjiang Uygur Autonomous Region, about 72 km west of Jimusar County, about 7 km north of Ganhezi Town, and adjacent to the east side of Xinjiang Jinxiang Sairui Coal Chemical Technology Co., Ltd. The project plans to build a new 383.3 MW PV power generation system to achieve hydrogen production capacity of 20,000 mt per year, together with a supporting ammonia synthesis system with annual output of 130,000 mt. In addition, one 220 kV step-down substation will also be built. Inner Mongolia Baofeng Coal-Based New Materials Co., Ltd.: Power Station Group has formally signed a cooperation agreement with Inner Mongolia Feng Coal-Based New Materials Co., Ltd. Power Station Group will supply key equipment for the Phase I water electrolysis hydrogen production project of the other party’s wind and solar power hydrogen production project, specifically including 8 alkaline electrolyzers of 1,250 Nm³/h and the world’s largest single-set 5,000 Nm³/h separation and purification system. In addition, Power Station Group will also provide the industry’s first outdoor three-dimensional layout design supporting services. Policy Review 1. Notice of the Ministry of Industry and Information Technology and Three Other Departments on Issuing the Implementation Plan for the High-Quality Development of Energy-Saving Equipment (2026-2028). The document states that by 2028, mass-produced water electrolysis hydrogen production equipment will achieve DC power consumption below 4.2 kWh/Nm³ under rated operating conditions. 2. Notice of the General Office of the National Energy Administration on Issuing the Guidelines for Project Approval of the 2026 Energy Industry Standards Plan. The key areas for project approval under the 2026 energy industry standards plan include 8 items. In the hydrogen energy field, the key directions include fundamentals and general applications, hydrogen production and conversion, hydrogen storage and transportation, hydrogen refueling, hydrogen power and generation, and hydrogen equipment. 3. Notice of the People’s Government of Heilongjiang Province on Issuing the Outline of the 15th Five-Year Plan for National Economic and Social Development of Heilongjiang Province. The document states that Heilongjiang will step up development of the bioenergy industry, foster green liquid fuel industries such as green hydrogen-to-ammonia, green methanol, and green aviation fuel, strive to achieve annual production capacity of 1 million mt of green hydrogen and 3 million mt of green liquid fuels, and accelerate the scaled and commercial development of bio-natural gas. Corporate Developments CIMC Enric Holdings Limited: Yang Baoying, honorary president of its hydrogen business center, and his delegation recently visited Pengfei Group. During the exchange, the two sides held discussions on promoting the implementation of the “hydrogen cylinder replacement” operating model for hydrogen heavy-duty trucks in Lvliang and ultimately reached consensus. This move has injected strong momentum into the commercialisation and scaled promotion of hydrogen heavy-duty trucks, pressing the “fast-forward button.” Yuchai Xinlan (Jiangsu) Hydrogen Energy Co., Ltd. : formally entered into a strategic cooperation agreement with Henan Hitachi Xin Co., Ltd. The two sides will carry out in-depth cooperation around key links in the hydrogen energy industry chain and jointly advance hydrogen technology innovation, product R&D, and market applications. Shaanxi Construction Engineering Installation Group Co., Ltd.: the Guyang first station and valve chamber of the Guyang-Baiyun Obo gas pipeline project, which it constructed, successfully passed completion acceptance. This milestone means that the innovative infrastructure project, equipped with 20% hydrogen blending transmission capability, is on the verge of official operation. It is understood that the Guyang-Baiyun Obo gas pipeline project not only has 20% hydrogen blending transmission capacity, but is also a key planned construction project under the “county-to-county connectivity in western Inner Mongolia” initiative in the Inner Mongolia Autonomous Region’s 14th Five-Year Plan for oil and gas development. The pipeline has a total length of 125 km, starting from the Guyang first station and generally running from south to north, passing through Guyang County, Darhan Muminggan Banner, and Baiyun Obo mining district in Baotou City before finally reaching Barun Industrial Park. Jiangsu Guofu Hydrogen Energy Technology Equipment Co., Ltd. : a delegation from Thailand’s water resources, electricity, and related institutions came to China for exchanges on the new energy industry and made a special trip to Zhangjiagang, Jiangsu, to visit the rooftop PV hydrogen production project jointly developed by ZNShine Solar and Guofu Hydrogen Energy. It is understood that the project relies on a distributed PV system installed on factory rooftops to provide clean and stable electricity for the enterprise’s production and energy applications through PV power generation, balancing efficient energy utilisation and green development. At the same time, it integrates hydrogen application scenarios and is equipped with an ESS to ensure stable energy supply for hydrogen production. It is a leading distributed PV hydrogen production demonstration project in China, showcasing China’s advanced achievements in the integrated development of PV and hydrogen energy. CSIC 712 Research Institute: the 100-kg-class hydrogen-powered hexacopter UAV “Hydrogen Peak No. 1,” which it led in developing, successfully completed its maiden flight. It is understood that Hanhydrogen Power, as the main supplier of the hydrogen supply system for hydrogen fuel cell UAVs, participated in the formulation of T/CEEIA265-2017 Technical Specification for Fuel Cell Fuel Systems of Unmanned Aerial Vehicles by the China Electrotechnical Society. Shanghai Yigong Hydrogen Energy Technology Co., Ltd.: Yigong Hydrogen Energy has seen concentrated batch shipments of its hydrogen compressor products, which have been delivered to project sites across the country for commercial operation. Guofu (Jinan) Hydrogen Energy Technology Development Co., Ltd.: registered capital is 2 million yuan, and the legal representative is Ding Leizhe. Equity information shows that Jiangsu Guofu Hydrogen Energy Technology Equipment Co., Ltd. holds 80% of the company, while Zhejiang Lingniu Yishi New Energy Technology Co., Ltd. holds 20%. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) disclosed patent CN2025110028, developing a ceramic-based anion exchange membrane with laboratory-tested service life reaching 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity close to platinum-based materials. Technology Footprint/Technical Specifications 1. Professor Yu Ying’s team at Central China Normal University developed a three-dimensional graded nanostructured catalytic electrode, a core component for seawater hydrogen production. 2. Dalian University of Technology designed an electron-pump catalyst with an asymmetric photoresponse structure to maintain asymmetry in electron distribution. 3. Research teams from the School of Electrical Engineering at Xi’an Jiaotong University and the State Key Laboratory of Electrical Materials and Electrical Insulation successfully developed a Ru/Ti3C2Ox@NF bifunctional electrocatalyst for seawater electrolysis. 4. Johnson Matthey and Syensqo achieved efficient recycling and reuse of platinum group metals and ionomers in PEM fuel cells and electrolyzers, significantly reducing carbon footprint. 5. Teams from Xi’an Jiaotong University and Peking University jointly developed a new-type osmium-based catalyst, significantly improving the efficiency and economics of AEM water electrolysis hydrogen production and supporting the scaled deployment of low-cost green hydrogen.

Capacity side, according to incomplete statistics, China’s alkaline electrolyzer market remained at 43.77 GW, and the PEM electrolyzer market remained at 2.7 GW, with no new capacity added. No offline delivery information was available this week. Project-related updates: Guohua (Ningxia) New Energy Co., Ltd.: A price inquiry procurement was issued for the pre-feasibility study report preparation service for the Guohua Ningxia 100,000-mt Green Hydrogen Energy Supply Base Project (chemical section). It was understood that the Ningdong water electrolysis hydrogen production project of Guohua Ningxia had already put into operation a scale of 20,000 Nm³/h, with 6,000 Nm³/h under construction. Datang Inner Mongolia Duolun Coal Chemical Co., Ltd.: An inquiry-based procurement was launched for the feasibility study and green methanol certification consulting technical services for the CNCEC Duolun Coal Chemical coal-based process biomass co-firing coupled with green electricity green methanol production project. It was understood that the Datang Duolun 150,000-kW wind and solar power hydrogen production integrated demonstration project was China’s first medium-to-large-scale technology demonstration project for off-grid wind and solar power hydrogen production deeply coupled with coal chemical engineering. It was invested in and constructed by Datang Duolun Ruiyuan New Energy Co., Ltd., with a total investment of approximately 1.3 billion yuan. Construction officially began in November 2023, hydrogen was successfully produced on December 29, 2024, and it was formally connected to grid and put into operation on January 17, 2025. Shaanxi Construction Installation Group Co., Ltd.: The Guyang-Baiyun Obo gas transmission pipeline project, undertaken by Shaanxi Construction Installation Group, reached a major milestone, with its Guyang initial station and valve chamber having successfully passed completion acceptance. It was reported that the gas transmission pipeline project has a 20% hydrogen blending transmission capacity and is a key planned construction project under the “county-to-county coverage in western Inner Mongolia” initiative in the Inner Mongolia Autonomous Region’s 14th Five-Year Plan for oil and gas development. The pipeline has a total length of 125 km, starting from the Guyang initial station and generally running from south to north, successively passing through Guyang County, Darhan Muminggan Banner, and the Baiyun Obo mining district in Baotou City, and ultimately reaching Barun Industrial Park. Jiamusi Hanya New Energy Co., Ltd.: The Jiamusi Hanya wind power hydrogen production synthetic green methanol integrated project was filed. The project is located in Heilongjiang Province, with a total investment of 4 billion yuan. Construction scale and contents: mainly the construction of a 300,000-mt green methanol production unit and a thermal energy storage unit, with a planned land area of approximately 350,000 m². Windey Energy Technology Group Co., Ltd.: The list of winning candidates was announced for the biomass gasification process package and technical services project for the first-phase Handan Biomass Green Methanol Project. The top-ranked winning candidate was East China Engineering Science and Technology Co., Ltd. It was understood that East China Engineering has extensive experience in the gasification field, with experience in the design, construction, EPC general contracting, commissioning, and operation of more than 100 gasifiers, covering various mainstream processes such as fixed bed, fluidized bed, and entrained-flow bed. Zhongqing Xinneng (Baotou) Equipment Co., Ltd.: The annual production project for 100,000 hydrogen storage cylinders for hydrogen two-wheelers was filed. The project is located in Kundulun District, Baotou City, Inner Mongolia Autonomous Region. It plans to build a production line with an annual capacity of 100,000 hydrogen storage cylinders for hydrogen two-wheelers, including production workshop renovation and supporting utilities. Annual output value will reach 100 million yuan. The planned construction period is from April 2026 to September 2026. Shenneng North (Otog Banner) Energy Co., Ltd.: The change to the 30 MW-class pure hydrogen gas turbine hydrogen energy storage demonstration project under the Otog Banner integrated wind and solar power hydrogen production and green ammonia synthesis project was filed. After the change, the project site is located in the eastern project area of the Ordos Otog Economic Development Zone, within Shenneng's water electrolysis hydrogen production station in Ordos City, Otog Banner, bounded to the north by the green hydrogen-to-green ammonia project under the Otog Banner integrated wind and solar power hydrogen production and green ammonia synthesis project, to the east by Jingsan Street, to the west by Jinger Street, and to the south by Weisi Road. Construction scale and content: the project covers an area of 500 sq m, of which the hydrogen gas turbine occupies 300 sq m. As a hydrogen energy storage demonstration project, it includes one 30 MW pure hydrogen gas turbine, generator, hydrogen storage equipment, and supporting facilities. Through wind and solar power generation and water electrolysis for hydrogen production, the project has a total hydrogen storage capacity of 360,000 Nm³, an effective hydrogen storage volume of 270,000 Nm³, and is equipped with 12 spherical hydrogen storage tanks, each with a water capacity of 1,875 m³. Jiyuan (Siping) Green Energy Co., Ltd.: The EPC tender for the hydrogen production works of the SPIC Green Energy Lishu wind and solar power hydrogen production, biomass-coupled green methanol project was released. It is understood that the project is located in the chemical park of the Siping New-type Industrialized Economic Development Zone, Lishu County, Siping City, Jilin Province. It adopts a green hydrogen coupled with biomass gasification process to synthesize 197,200 mt/year of methanol, started construction in August 2025, and is expected to be commissioned in September 2027. The project includes three hydrogen production workshops. Workshops No. 1 and No. 2 each are arranged with 12 sets of 1,000 Nm³/h alkaline electrolytic hydrogen production electrolyzers plus three sets of 4,000 Nm³/h hydrogen purification units; Workshop No. 3 is arranged with four sets of 1,000 Nm³/h alkaline electrolytic hydrogen production electrolyzers plus one set of 4,000 Nm³/h gas-liquid separation unit, among others. Sinopec Sales Co., Ltd. Tibet Petroleum Branch : The tender notice for Section I of the general construction contracting project for the Shannan hydrogen-oxygen combined supply project was released. The construction site is in Naidong District, Shannan City, Tibet Autonomous Region; the planned construction period is 180 days; the estimated contract value for the section is 27.23 million yuan (tax included); the hydrogen production portion of the section tender includes an IGBT rectifier and control system skid, hydrogen production skid, oxygen purification unit, pure water machine and chiller unit skid, and related supporting facilities, while the hydrogen refueling portion includes a 35 MPa dual-nozzle hydrogen dispenser, 45 MPa hydrogen compressor skid, 45 MPa hydrogen storage cylinder bank, and sequence control panel. Ming Yang Smart Energy Group Co., Ltd.: It held a signing ceremony at Ming Yang Group headquarters for the hydrogen-fueled gas turbine complete-unit R&D and manufacturing project with the People's Government of Hudai Town, Binhu District, Wuxi City, Jiangsu Province, with both parties formally reaching a strategic cooperation agreement. Sichuan Zhongke Hydrogen Energy Technology Co., Ltd. : First Public Notice of Environmental Impact Assessment Information for Phase II of the Integrated Energy Station Project Featuring Hydropower, Wind and Solar Power, Hydrogen, and Natural Gas Multi-Energy Complementarity. According to the document, Phase II of the integrated energy station project featuring hydropower, wind and solar power, hydrogen, and natural gas multi-energy complementarity is located in Nanchong High-tech Zone, with Sichuan Zhongke Hydrogen Energy Technology Co., Ltd. as the project developer. It will build an integrated hydrogen production and refueling station, along with supporting public utility facilities, to realise the hydrogen refueling function of the integrated energy station for hydrogen-powered vehicles, and will also build one hydrogen energy industry R&D production site. GRINM Engineering Institute Co., Ltd. : The new materials pilot platform in Huairou Science City completed final acceptance upon completion, and four key pilot lines, including solid-state hydrogen storage and ceramic co-firing materials, entered the stage of commissioning and line integration. Among them, the total investment in the solid-state hydrogen storage project is 14.5 million yuan, and the total investment in the ceramic co-firing materials project is 12 million yuan, which will support the commercialisation of new material achievements and the industrialisation of hydrogen energy and key electronic materials. Policy Review​ 1. The Ministry of Industry and Information Technology, the Ministry of Finance, and the National Development and Reform Commission (NDRC) issued a notice on carrying out pilot work for the comprehensive application of hydrogen energy. The document states that by 2030, hydrogen energy in city clusters is expected to achieve large-scale application across diverse fields, and the average price of hydrogen for end-use is expected to fall below 25 yuan/kg, with efforts to reduce it to around 15 yuan/kg in certain advantaged regions; national fuel cell vehicle ownership is expected to double from the 2025 level, with efforts to reach 100,000 units. Through the expansion of application scale, it will promote innovative breakthroughs in hydrogen energy application technologies, processes, and equipment, realise iterative upgrades of fuel cells, electrolyzers, storage and transportation devices, and materials, and promote hydrogen energy as a new economic growth driver to support a comprehensive green transformation of economic and social development. 2. The People's Government of Hunan Province issued the Hunan Province 2026 Plan for National Economic and Social Development. The document states that efforts will be made to advance the circular economy and cleaner production and build a number of zero-carbon parks and zero-carbon factories. It is expected to accelerate the green and low-carbon transformation of the energy system, optimise the management of new energy project pipelines, and speed up the construction of key wind and solar power projects. It will expand green energy consumption scenarios and implement a three-year doubling plan for the service capacity of charging facilities. It will also actively develop the hydrogen energy industry and expand the scale of natural gas utilisation. 3. With the approval of the National Energy Administration, the Standardization Technical Committee for Hydrogen Energy in the Energy Industry was established in Beijing. The establishment of this committee was intended to improve the industry standards system, lead technological innovation, and regulate market order. Enterprise Developments Haida Qingneng Ship (Dalian) Co., Ltd.: The nation's first inland 64-TEU hydrogen fuel cell-powered container vessel, Dongfang Qinggang, for which it supplied the powertrain, successfully completed its first long-distance trial voyage. The entire system operated stably, the navigation performance was excellent, and the trial voyage was a complete success. Hydrogen Power (Beijing) Technology Services Co., Ltd.: 100 hydrogen-powered refrigerated trucks were officially delivered to Hydrogen Cheng Times and will be operated by Hydrogen Power Technology as the agent. Rongcheng New Energy Group: Successfully delivered 50 hydrogen-powered heavy trucks to Cangzhou Huagang International Logistics Co., Ltd. This batch of vehicles will be put into service on the transport route from Huanghua Port to the Shandong Lubei Aluminum Industry Base. CSSC Engine Co., Ltd.: Its WinGD6X72DF-A-1.0 ammonia-fueled low-speed engine successfully passed functional integration approval and bench testing, and was successfully delivered in Qingdao. It is understood that this was the first ammonia-fueled marine engine in China to be formally delivered as a commercial product. Aerospace Engineering Company: Signed contracts for two major green hydrogen engineering projects in succession, namely the hydrogen refueling station water electrolysis hydrogen production project of Zhongqing Energy Development (Shandong) Co., Ltd., and the electrolytic hydrogen production unit project for the Inner Mongolia Fenglü green hydrogen-coupled coal-to-olefins project. For these two projects, Aerospace Engineering Company will provide a total of 16 sets of HTJSDJ-1000/1.6 alkaline electrolyzers, together with supporting post-processing systems and utility engineering equipment, and will be responsible for engineering design. This cooperation marked Aerospace Engineering Company's simultaneous breakthroughs in the two major fields of green transportation and green hydrogen chemicals. Qinghang Times (Shenzhen) Technology Co., Ltd. : Qinghang Times was established on January 5, 2026, with a registered capital of 1 million yuan and legal representative He Rongjie. Founded by a Tsinghua University master's and doctoral team, it received support from Tsinghua entrepreneurship and innovation platforms including Tsinghua i-Space and Tsinghua Chuang+, and was selected for the Sci-Tech Innovation Light "Future Tech Innovators Program." With a technical solution combining liquid hydrogen storage and a high-temperature PEM hydrogen-electric coupling system, it increases aircraft driving range by more than 10 times and payload capacity by 2-3 times. Recently, it completed seed-round financing of several million yuan, with the investor undisclosed. Shenzhen Hydrogen Zhi Energy Co., Ltd.: Completed A+ round financing, with Shenzhen Energy Investment as the investor. Anhui Mashui New Energy Technology Co., Ltd. : Anhui Mashui Technology completed A-round financing of over 100 million yuan, led by NIO Capital. This round of funding will be used primarily to fulfill large orders, increase R&D reserves, support new factory construction, and cover daily operations, so as to drive the integration and upgrading of the industry chain. China Energy Engineering Corporation Research Institute: The kick-off meeting for the international standard High-Pressure Liquid Hydrogen Pump for Hydrogen Refueling Stations, led and submitted by the Low-Carbon Institute, was held online. Since the standard was approved for project initiation in November last year, this meeting clarified the advancement plan and technical roadmap, bringing together 20 experts from China, the United States, Germany, France, Russia, Japan, and the European Industrial Gases Association, who reached consensus on core issues such as the standard’s scope and application scenarios, thereby laying a solid foundation for the high-quality and timely delivery of the standard. Jiangsu Guofu Hydrogen Energy Equipment Co., Ltd. : A delegation from Thailand’s water, electricity, and related institutions came to China for exchanges on the new energy industry and made a special trip to Zhangjiagang, Jiangsu, to visit the rooftop PV hydrogen production project jointly developed by Zonergy and Guofu Hydrogen Energy. It was understood that the project relied on a distributed PV system installed on factory rooftops and used PV power generation to provide clean and stable electricity for enterprise production and energy applications, balancing efficient energy utilization with green development; at the same time, it integrated hydrogen energy application scenarios and was equipped with an ESS to ensure a stable energy supply for hydrogen production. It is a leading distributed PV hydrogen production demonstration project in China by scale, showcasing China’s advanced achievements in the integrated development of PV and hydrogen energy. Beijing SinoHytec Co., Ltd.: Signed a strategic cooperation agreement with Haitai Solar and the Hebei Hydrogen Energy Society, relying on the National Energy Administration’s first batch of hydrogen energy pilot policies and centering on the Zhangjiakou-Chengde-Tangshan hydrogen energy regional pilot to advance the deep integration of “government, industry, academia, research, and application.” The three parties will focus on the Kangbao-Caofeidian long-distance hydrogen pipeline with annual hydrogen transmission capacity of 1.55 million mt, creating a “hydrogen production in Zhangjiakou and Chengde, application in Tangshan” model. Haitai Solar will provide SinoHytec with a stable hydrogen supply and storage and transportation services, addressing the industry’s high storage and transportation costs and supporting high-quality regional hydrogen energy development and the implementation of the “dual carbon” goals. The Sixth Academy of China Aerospace Science and Technology Corporation: Released four new hydrogen energy products in Beijing, including an onboard liquid hydrogen system, liquid hydrogen refueling equipment, a liquid hydrogen tank container, and an alkaline electrolyzer, and also released a blue book on the hydrogen energy industry to help build the hydrogen energy industry ecosystem. Beijing Hydrosys Technology Co., Ltd.: Its self-developed hydraulic-driven hydrogen compressor underwent rigorous assessment and passed EU CE certification. Patent Applications 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences (China) disclosed patent CN2025110028 and developed a ceramic-based anion exchange membrane, with a laboratory-tested service life of up to 80,000 hours. 2. Johnson Matthey (UK) filed patent WO2025109876, disclosing an Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity close to that of platinum-based materials. Technology Footprint/Technical Specifications 1. A joint team from Xi’an Jiaotong University and Peking University jointly conducted R&D on a new-type osmium-based catalyst, significantly improving the efficiency and economics of hydrogen production via AEM water electrolysis and supporting the large-scale deployment of low-cost green hydrogen. 2. Johnson Matthey and Syensqo achieved efficient recycling and reuse of platinum group metals and ionomers in PEM fuel cells and electrolyzers, significantly reducing the carbon footprint. 3. Relevant research teams from the School of Electrical Engineering at Xi’an Jiaotong University and the State Key Laboratory of Electrical Materials and Electrical Insulation successfully developed the Ru/Ti3C2Ox@NF bifunctional electrocatalyst for seawater electrolysis. 4. The group standard Technical Specification for Hydrogen Production by Coupled Electrolysis with Wind and Solar Power, PV+ESS, and Green Electricity (No. T/CIEP 0272—2025) was released and implemented by the China Industrial Environmental Protection Promotion Association. Zhongneng Dayou Energy Technology Co., Ltd. successfully developed a 100 kW-class PEM electrolyzer hydrogen production multi-field coupling test device. 5. GKN Powder Metallurgy announced that it has developed a next-generation high performance, high-porosity, high-purity porous transport layer (HP-PTL) for proton exchange membrane (PEM) electrolysis.

In the fields of precious and rare metals, compared with well-known categories such as gold, silver, and platinum-group metals, osmium has always remained a niche yet highly distinctive presence. With its unmatched physicochemical properties, it has become an indispensable key material in high-end industry and scientific research. Even though it receives limited market attention, it still possesses irreplaceable value. This article will provide a comprehensive breakdown of osmium metal, covering its basic properties, resource supply, application scenarios, and market characteristics, to offer a full understanding of this “king of density.” I. First Encounter with Osmium: A Hardcore Outlier Among the Platinum-Group Metals Osmium, with the chemical symbol Os and atomic number 76, belongs to the platinum-group metals. It is a Group VIII transition metal on the periodic table and also one of the rarest metals found in nature. As one of the six major members of the platinum-group metal family, osmium has no independent ore deposits and is commonly associated with platinum, iridium, ruthenium, rhodium, and palladium. It can only be recovered through purification during platinum ore smelting and cannot be extracted through standalone large-scale mining. This inherent characteristic directly defines its scarcity. Osmium’s physicochemical properties are truly unique in the world of metals, with highly recognizable core characteristics: first, it has the highest density in the world. Under standard conditions at 20°C, its density reaches 22.59 g/cm³, far exceeding that of gold (19.32 g/cm³) and platinum (21.45 g/cm³). It is currently the densest naturally occurring metal known, and at the same volume, it weighs far more than various conventional precious metals. Second, it demonstrates excellent high-temperature resistance, with a melting point of 3,033°C and a boiling point exceeding 5,000°C. It remains highly stable in high-temperature environments and can adapt to various industrial and scientific applications under extreme heat. Third, it has outstanding hardness and strong corrosion resistance. With a Mohs hardness of 7, it is hard, durable, and wear-resistant, and is difficult to corrode under conventional acidic or alkaline conditions. However, its drawbacks are also quite evident: it is highly brittle and has extremely poor plasticity, making it impossible to process through conventional mechanical methods, so it is mostly used in powder or alloy form. A key safety precaution must be emphasized here: when osmium metal is heated in air to above 100°C, it slowly oxidizes to form osmium tetroxide (OsO₄). This substance is highly irritating, highly volatile, and somewhat toxic. Therefore, the entire process involving osmium, including production smelting, storage and transportation, and deep processing, must be carried out under the protection of inert gas and in strict compliance with operational standards. These exceptionally high compliance and control requirements further raise the barriers to osmium’s production and application. II. Extreme Scarcity: Osmium’s Resource Endowment and Supply Landscape Osmium is far rarer than commonly recognized precious metals such as gold and platinum, and it can be regarded as a “niche treasure” in the precious metals sector. Relevant data show that the average abundance of osmium in the Earth’s crust is only about 0.001 ppm, making it one of the least abundant stable elements in the crust. Globally, identified recoverable reserves are extremely limited, and resource distribution is highly concentrated, without the formation of widely distributed ore deposits. Supply side, the scarcity of osmium is even more pronounced. As there are no standalone mines, global osmium production is entirely dependent on platinum ore mining and smelting, with capacity remaining at an extremely low level year-round. Global annual production is about 1 mt (data from the International Platinum Group Metals Association), while China’s annual production is less than 100 kg, with supply far below that of other platinum group metals. From the global supply landscape, traditional major platinum group metal-producing countries such as South Africa and Russia control the vast majority of the world’s osmium resources and smelting capacity. Industry supply shows a highly monopolized pattern, with extremely low supply elasticity. Minor changes in mining progress, geopolitical conditions, environmental protection-related controls policies, and platinum group metal smelting capacity all directly affect global osmium supply. This dual characteristic of “inherent resource scarcity + constrained supply” has kept the osmium market in a long-term tight supply-demand balance and has also given it strong price resilience and fluctuation elasticity, securing a unique position in the rare metals market. 3. Exclusive to High-End, Cutting-Edge Applications: Core Application Scenarios of Osmium Although osmium has limited production and a relatively narrow range of applications, its exceptional physical and chemical properties have enabled it to take root precisely in high-end niche fields, making it an irreplaceable core material in many advanced applications. Downstream demand is concentrated and highly rigid, with no low-cost substitutes currently available. Its core applications are mainly concentrated in four major fields: 1. Special Hard Alloys: Core Raw Material for High-End Wear-Resistant Components Osmium-based alloys made by melting osmium with metals such as iridium and platinum combine ultra-high hardness, wear resistance, and corrosion resistance, making them key core materials for high-end precision instruments. These alloys are widely used in high-precision bearings for high-end watches and precision instruments, premium fountain pen nibs, professional turntable styluses, medical precision scalpels, and high-end wear-resistant mechanical components. They can significantly improve component service life and durability, making them suitable for long-term, high-load, high-wear operating environments, and they are core wear-resistant materials in the high-end manufacturing sector. 2. Industrial Catalysis: Dedicated High-Efficiency Additive for Fine Chemicals Osmium and its compounds have excellent catalytic activity and serve as dedicated catalysts in certain fine chemical and organic synthesis reactions. Especially in special chemical processes such as hydrogenation and oxidation reactions, they offer high catalytic efficiency and strong reaction selectivity, effectively optimizing process flows and improving product purity and yield. Although the unit consumption of osmium catalysts is extremely low, they are rigid process necessities and are difficult to replace with other common metal catalysts, resulting in relatively strong downstream demand stability. 3. Scientific Research and Detection: Essential Specialty Consumable for Laboratories Although osmium tetroxide is toxic, it has irreplaceable value in scientific research. It is a high-quality staining agent for biological samples and microscopic material sections under electron microscopes, significantly enhancing the clarity and contrast of observed samples, and is an indispensable experimental reagent in frontier research fields such as materials science and life sciences. Meanwhile, high-purity osmium powder was also widely used in high-end scientific research experiments and the R&D of specialized new materials, serving as a niche but essential consumable for major research institutes and high-end laboratories. 4. High-End Specialized Fields: Core Components for Military and Aerospace Applications Leveraging its core advantages of high density, high-temperature resistance, and high stability, osmium was also applied in specialized high-temperature components for aerospace and military applications, precision guidance components, as well as niche scenarios such as high-end electrical contacts and wear-resistant coatings. These applications were all concentrated in cutting-edge, high-precision sectors. Although the volume of each individual application was small, the product value-added was extremely high. Moreover, with the technological iteration and development of high-end manufacturing and the military and aerospace industries, related demand had the potential for steady growth. IV. Summary of the Core Characteristics of the Osmium Metal Market Overall, as a rare category among platinum group metals, osmium had highly distinctive core characteristics: extreme scarcity on the resource side, highly monopolized supply with insufficient elasticity; application-side concentration in high-precision, cutting-edge fields, with rigid and irreplaceable demand; and unique physicochemical properties, combining both advantages and application barriers. Unlike the market-driven fluctuation logic of conventional bulk commodities, the osmium market was significantly affected by factors such as supply-side changes, downstream demand from high-end industries, and compliance costs. The overall market size was small, and trading frequency was relatively low, placing it in the category of niche rare precious metals. Its core value always revolved around the two key points of “scarcity” and “irreplaceability,” making it an indispensable key metal material in high-end industrial and scientific research fields.

Capacity side, according to incomplete statistics, China’s alkaline electrolyzer market remained at 43.77 GW and the PEM electrolyzer market remained at 2.7 GW, with no new capacity added. No offline delivery information was available this week. Project-related developments: Jiangsu Guofu Hydrogen Energy Technology Equipment Co., Ltd.: Its indirectly wholly owned subsidiary, Xinjiang Guofu Mingzhi Hydrogen Energy Technology Co., Ltd., entered into a sales agreement with independent third party Hefei Zhongke Hecheng Green Energy Co., Ltd. for hydrogen production equipment for a green fuel base demonstration project featuring 20,000 mt of green electricity-based hydrogen production and flexible synthetic ammonia. The total contract value exceeded 55 million yuan. Under the agreement, Guofu Mingzhi will supply the client with six sets of 1,000 Nm³/hour alkaline electrolyzers and auxiliary equipment, such as rectifier transformers, rectifier cabinets, and separation and purification equipment. Xizang Zangqing Energy Equipment Co., Ltd.: A tender announcement was officially issued for the EPC project covering design and construction of Phase I of the zero-carbon intelligent equipment base for the new energy industry of green hydrogen and green methanol in the Zangqing Industrial Park. It is understood that the project mainly includes: an annual output of 100 sets of 1,500 Nm³-2,000 Nm³ alkaline electrolyzers; a 500 MW/year production line for plateau-type PEM electrolyzers; a standardized production line for a 40,000 t/d methanol synthesis unit and components; an annual output of 120 sets of 500 kW integrated hydrogen-oxygen heat and power co-generation units; and an annual output of 50 sets of 500 kg/day skid-mounted integrated methanol hydrogen refueling station equipment. Renewable Green Hydrogen Energy (Inner Mongolia) Co., Ltd.: An announcement was issued on the signing of the EPC general contract for the Phase I, Stage I green ammonia project of the integrated 800,000 mt/year wind and solar power-hydrogen-ammonia project with Donghua Technology. It is understood that the contract was signed by both parties on March 5, with a contract value of 2.026 billion yuan (provisional estimate), and the construction period (mechanical completion) will run until June 18, 2028. Donghua Engineering Technology Co., Ltd. will mainly undertake the design, procurement, construction, operation assurance services, and guidance for startup and commissioning of the EPC project. Tangshan Haitai New Energy Technology Co., Ltd. : During the visit by the deputy secretary of the Abaqa Banner Committee in Inner Mongolia, the two sides further deepened cooperation on the 10 GW integrated wind and solar power-to-hydrogen project, working together to advance the project’s early commencement and commissioning. Maoming Binhai New Area Urban Investment Development Co., Ltd.: A public notice was issued on the shortlisted candidates for the construction of Phase I of the supporting road network project for the Green Chemical and Hydrogen Energy Industrial Park in Maoming Binhai New Area. The first shortlisted candidate was CCCC Fourth Harbor Engineering Co., Ltd., with a bid price of 98.210593 million yuan; the second shortlisted candidate was Hebei Xiangda Road & Bridge Engineering Co., Ltd., with a bid price of 98.23076 million yuan; and the third shortlisted candidate was Jiangxi Sitong Road & Bridge Construction Group Co., Ltd., with a bid price of 98.008929 million yuan. Fujian Tianchen Yaolong New Materials Co., Ltd.: A tender announcement was issued for the equipment procurement project for the hydrogen purification unit of the cyclohexanone technology upgrade and renovation project. It is understood that the project plans to procure one set of hydrogen purification unit equipment, with a maximum bid price of 7 million yuan. Inner Mongolia Juliyong Hydrogen New Energy Technology Co., Ltd.: Its new-type high-density, low-pressure solid-state hydrogen energy power R&D and industrialisation project was filed. The project will be constructed in Ordos City—Ordos Airport Logistics Park—Phase II, First Floor, Standardised Factory Buildings, Ordos Comprehensive Bonded Zone, Ejin Horo Banner, Ordos City, Inner Mongolia. The project is expected to be built in two phases, with a total investment of approximately 120 million yuan. It requires 10 million yuan in policy support funding, with Phase I investment of 40 million yuan and Phase II investment of 80 million yuan. The construction period is three years, and after completion, the project is expected to generate annual profit of 30 million yuan. Policy Review 1. At the press conference held during the fourth session of the 14th National People's Congress, Zheng Shanjie, Chairman of the National Development and Reform Commission, said that China would focus on developing the “six emerging pillar industries” and the “six future industries.” Among them, “green hydrogen energy and nuclear fusion energy” were included in the category of future industries. 2. The People's Government of Shandong Province issued the Implementation Plan on Supporting Jining in Accelerating Green and Low-Carbon Transformation and Building New Advantages in High-Quality Development. The document proposed supporting Jining in fostering and developing emerging industries and future industries such as hydrogen energy production, storage, and transportation, and supporting the construction of future industry acceleration parks; advancing R&D breakthroughs in key technologies such as hydrogen fuel cell vessels, building a leading inland new energy vessel manufacturing base in China; and supporting technological innovation and the promotion and application in fields such as hydrogen energy. 3. With the approval of the National Energy Administration, the Standardisation Technical Committee for the Hydrogen Energy Sector of the Energy Industry was established in Beijing. The establishment of the committee aims to improve the industry standard system, lead technological innovation, and regulate market order. Enterprise Updates Qinghang Times (Shenzhen) Technology Co., Ltd. : Qinghang Times was established on January 5, 2026, with a registered capital of 1 million yuan and legal representative He Rongjie. It was founded by a Tsinghua University master's and doctoral team, received support from Tsinghua innovation and entrepreneurship platforms such as Tsinghua i-Space and Tsinghua Chuang+, and was selected for the Sci-Tech Innovation Light “Future Sci-Tech Entrepreneur Program.” Through its technical solution combining liquid hydrogen storage and a high-temperature PEM hydrogen-electric coupling system, it increased aircraft driving range by more than 10 times and payload by 2–3 times. Recently, it completed seed-round financing worth several million yuan, with the investor undisclosed. Shenzhen Hydrogen Energy Co., Ltd.: Completed A+ round financing, with Shenzhen Energy Investment as the investor. Anhui Shuishui New Energy Technology Co., Ltd. : Anhui Shuishui Technology completed an A-round financing of over 100 million yuan, led by NIO Capital. This round of funding will be primarily used to fulfill large orders, increase R&D reserves, construct new factories, and support daily operations, in order to drive the integration and upgrading of the industry chain. SPIC Green Energy Co., Ltd.: held talks with Beijing Energy International Holding Co., Ltd., with both sides focusing on areas such as the construction of green electricity transmission channels into Beijing and pipeline transportation of green hydrogen, and conducting in-depth exchanges on deepening cooperation. Beijing Hydrosys Technology Co., Ltd. : helped successfully complete hydrogen refueling at Yunnan’s first integrated “PV–green electricity–hydrogen” refueling station. China Classification Society ​​​​​​​: supported the successful completion of the 16,136 TEU methanol dual-fuel container ship project. China Classification Society​​​​​​​​​​​​​​: the “COSCO 9802,” a single methanol-powered chemical tanker for which it carried out drawing approval and construction inspection, was successfully delivered. ​​Patent Applications​​ 1. Shanghai Institute of Ceramics, Chinese Academy of Sciences​​ (China) disclosed patent CN2025110028, developing a ceramic-based anion exchange membrane with a laboratory-tested lifespan of 80,000 hours. ​​2. Johnson Matthey​​ (UK) filed patent WO2025109876, disclosing a Fe-Ni-Mo ternary non-precious metal catalyst formulation with activity close to platinum-based materials. Technology Footprint/Technical Specifications​​ 1. A team from Xi’an Jiaotong University and Peking University jointly developed a new-type osmium-based catalyst, significantly improving the efficiency and economics of hydrogen production from AEM water electrolysis and supporting the large-scale deployment of low-cost green hydrogen. 2. Johnson Matthey and Syensqo achieved efficient recycling and reuse of platinum group metals and ionomers in PEM fuel cells and electrolyzers, substantially reducing the carbon footprint. 3.​​Research teams from the School of Electrical Engineering of Xi’an Jiaotong University and the State Key Laboratory of Electrical Materials and Electrical Insulation successfully developed the Ru/Ti3C2Ox@NF bifunctional electrocatalyst for seawater electrolysis. 4. The group standard Technical Specification for Wind and Solar Power, PV+ESS, and Green Electricity Coupled Electrolysis Hydrogen Production (No. T/CIEP 0272—2025) was released and implemented by the China Industrial Environmental Protection Promotion Association. Zhongneng Dayou Energy Technology Co., Ltd. successfully developed a 100 kW-class PEM electrolyzer hydrogen production multi-field coupling test device. 5. GKN Powder Metallurgy announced that it had developed a next-generation high performance, high-porosity, high-purity porous transport layer (HP-PTL) for proton exchange membrane (PEM) electrolysis.

Johnson Matthey, in North America (e.g., refineries in Michigan and New Jersey), increased the yield and throughput of high-purity platinum and palladium (purity of 99.99%+) by optimizing solvent extraction and electrolysis purification processes and upgrading automation, in order to address the tight supply of raw materials from South Africa and Russia. BASF, in North America (e.g., sites in Michigan and Ohio), focused on improving the efficiency of secondary refining of platinum and palladium as well as catalyst regeneration, while expanding capacity for high-purity platinum and palladium salts and sponge, in order to offset the impact of restricted imports of Russian platinum group metals (PGMs) and production cuts at South African mines.