2022年11月,谢和平院士团队通过将分子扩散、界面相平衡等物理力学过程与电化学反应结合,创新提出了相变迁移海水直接电解制氢全新路径,从根本上破解了海水直接电解制氢的难点和瓶颈,成果发表于Nature(Nature, 2022, 612(7941): 673-678),并入选“2022年度中国科学十大进展”。2023...
谢和平院士团队在2022年创新提出了相变迁移海水直接电解制氢全新路径,成果发表于Nature(Nature, 2022, 612(7941): 673-678),入选2022年度中国科学十大进展,并于次年5月,联合东方电气集团打造了全球首个海上风电海水无淡化原位直接电解制氢示范(Nature Communica...
Nature volume 612, pages 673–678 (2022)Cite this article 69k Accesses 321 Altmetric Metrics details Abstract Electrochemical saline water electrolysis using renewable energy as input is a highly desirable and sustainable method for the mass production of green hydrogen1,2,3,4,5,6,7; however, ...
2022年11月,谢和平院士团队通过将分子扩散、界面相平衡等物理力学过程与电化学反应结合,创新提出了相变迁移海水直接电解制氢全新路径,从根本上破解了海水直接电解制氢的难点和瓶颈,成果发表于Nature(Nature, 2022, 612(7941): 673-678),并入选“2022年度中国科学十大进展”。2023年5月,谢和平院士团队与东方电气集团联合...
2022年11月,谢和平院士团队通过将分子扩散、界面相平衡等物理力学过程与电化学反应结合,创新提出了相变迁移海水直接电解制氢全新路径,从根本上破解了海水直接电解制氢的难点和瓶颈,成果发表于Nature(Nature, 2022, 612(7941): 673-678),并入选“2022年度中国科学十大进展”。2023年5月,谢和平院士团队与东方电气集团联合...
针对前述挑战,谢和平院士团队通过将分子扩散、界面相平衡等物理力学过程与电化学反应结合,开创了海水原位直接电解制氢全新原理与技术(Nature, 2022, 612(7941): 673-678.),建立了气液界面相变自迁移自驱动的海水直接电解制氢理论方法,形成了界面压力差海水自发相变传质的力学驱动机制,实现了无额外能耗的电化学反应协同...
Nat. Methods 5, 673–678 (2008). Article Google Scholar Download references Acknowledgements Work in the Roth laboratory is supported by grants from the NIH. J.W. was supported by funds from the NIDDK Intramural Research Program (Bethesda, MD, USA). This work was supported by the National...
Dysregulation of the immune system is a cardinal feature of Alzheimer disease (AD), and a considerable body of evidence indicates pathological alterations in central and peripheral immune responses that change over time. Considering AD as a systemic immu
673 Applied Mechanics Reviews 674 AMERICAN JOURNAL OF HEMATOLOGY INTERNATIONAL JOURNAL OF ROBOTICS 675 RESEARCH 676 DIABETES OBESITY & METABOLISM 677 ACM COMPUTING SURVEYS JOURNAL OF CHILD PSYCHOLOGY AND 678 PSYCHIATRY JOURNAL OF CHILD PSYCHOLOGY AND 678 PSYCHIATRY 680 BLOOD REVIEWS AMERICAN JOURNAL OF ...
Abstract Hydrogen production from seawater remains challenging due to the deactivation of the hydrogen evolution reaction (HER) electrode under high current density. To overcome the activity-stability trade-offs in transition-metal sulfides, we propose a strategy to engineer sulfur migration by constructin...