Core Viewpoint - The 3rd Westlake Symposium on AEM-WE aims to create a platform for sharing the latest research and advancements in anion exchange membrane water electrolysis technology, promoting the development and industrial application of next-generation green hydrogen production technology [39]. Group 1: Conference Details - The symposium will take place from April 24 to April 26, 2026, at Westlake University, Hangzhou, China [40]. - Registration is open from now until April 19, 2026, with fees set at 2500 RMB for regular participants and 1600 RMB for students for online registration [44]. - The event has previously attracted nearly 800 participants from academia and industry, indicating strong interest in the field [39]. Group 2: Keynote Speakers and Participants - Notable speakers include academicians from various prestigious institutions, such as Sun Licheng from Westlake University and Yushan Yan from the University of Delaware [5][18]. - The symposium will feature experts in areas such as OER/HER catalysts, anion exchange membranes, and membrane electrode assembly, facilitating discussions on cutting-edge research [39]. Group 3: Poster Submission and Awards - The deadline for poster submissions is April 19, 2026, with specific requirements for format and content [51]. - Selected posters will be displayed during the symposium, and there will be an award for outstanding posters [51].

Core Viewpoint - Sichuan Province is advancing its hydrogen energy industry by implementing a long-term development plan that focuses on various hydrogen production technologies and storage solutions [1] Group 1: Hydrogen Production Technologies - The plan emphasizes the development of green and large-scale hydrogen production technologies, aiming to break through megawatt-level proton exchange membrane electrolysis technology [1] - It includes research on solid oxide electrolysis, anion exchange membrane electrolysis, and advanced methods such as photolytic water splitting and high-temperature nuclear hydrogen production [1] Group 2: Hydrogen Storage Solutions - The focus is on achieving breakthroughs in manufacturing technologies for high-pressure hydrogen storage tanks (70 MPa and above) and low-temperature liquid hydrogen storage tanks [1] - There is an emphasis on increasing research into salt cavern hydrogen storage, solid-state hydrogen storage, organic liquid hydrogen storage, and deep cryogenic liquid hydrogen technologies [1] Group 3: Infrastructure and Transportation - The plan also explores the technology for blending hydrogen with natural gas and the transportation of pure hydrogen through pipelines [1]