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Chen pioneered nanofluidic energy conversion and, based on the ultra-large surface area between nanoporous materials and functional liquids, he developed affordable material systems that can convert among electrical, thermal and mechanical energies with high efficiency. He elaborated the mechanism of a series of counterintuitive reversible chemical reactions and developed several moisture-swing absorbents for capturing carbon dioxide from ambient air with very low energy and material cost. Using simple mechanics theories, he pioneered the study of morphogenesis of various fruits, vegetables, animals, tissues, and cells, and further implemented into stress engineering of 3D self-assembly, as well as proposed innovative locomotion modes of soft robots. He has also extensively studied material genomics and established nanomechanics frameworks and reliable characterization methods of numerous energy and nanomaterials.
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论文共 906 篇作者统计合作学者相似作者
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JOURNAL OF SOLID STATE CHEMISTRY (2024)
AAAI 2024no. 11 (2024): 12313-12321
JOURNAL OF PINEAL RESEARCHno. 1 (2024)
Yu Zhang, Xiaoliang An,Gang Zhao,Hang Jia, Yue Qiao,Hongjian Gu,Xi Chen, Wenqi Zhao,Yousi Chen,Xigao Jian,Cheng Liu,Zhihuan Weng
Composites Science and Technology (2024)
Composites Part A: Applied Science and Manufacturingpp.108115, (2024)
MATERIALS TODAY BIO (2024): 100985-100985
Journal of Solid State Chemistrypp.124561, (2024)
ADVANCED MATERIALS TECHNOLOGIES (2024)
Journal of Power Sources (2024): 234242
CoRR (2024)
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