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Hybrid Organic–Inorganic Materials and Composites for Photoelectrochemical Water Splitting
ACS Energy Letters ( IF 19.3 ) Pub Date : 2020-04-03 , DOI: 10.1021/acsenergylett.0c00327 Simrjit Singh 1 , Hongjun Chen 2 , Shamim Shahrokhi 1 , Luyuan Paul Wang 3 , Chun-Ho Lin 1 , Long Hu 1 , Xinwei Guan 1 , Antonio Tricoli 2 , Zhichuan J. Xu 3 , Tom Wu 1
ACS Energy Letters ( IF 19.3 ) Pub Date : 2020-04-03 , DOI: 10.1021/acsenergylett.0c00327 Simrjit Singh 1 , Hongjun Chen 2 , Shamim Shahrokhi 1 , Luyuan Paul Wang 3 , Chun-Ho Lin 1 , Long Hu 1 , Xinwei Guan 1 , Antonio Tricoli 2 , Zhichuan J. Xu 3 , Tom Wu 1
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Organic–inorganic hybrids, which synergize the merits of organic and inorganic materials, have emerged as a new class of highly versatile functional materials with tailored properties and enhanced energy conversion efficiency. In this Focus Review, state-of-the-art results on organic–inorganic hybrids, used for water splitting and generation of hydrogen as a clean and renewable fuel, are concisely summarized. Two classes of hybrid materials, i.e., organic–inorganic nanocomposites and hybrid halide perovskites, are reviewed and compared for designing photoelectrochemical cells. Furthermore, promising design strategies to enhance the device performance and stability are discussed.
中文翻译:
用于光电化学水分解的杂化有机-无机材料和复合材料
能够有机和无机材料的优点协同作用的有机-无机杂化材料已经成为一类具有定制性能和增强的能量转换效率的新型多功能材料。在本《焦点评论》中,简要总结了有机-无机杂化技术的最新成果,这些杂化技术用于水分解和氢作为清洁和可再生燃料的产生。审查并比较了两类杂化材料,即有机-无机纳米复合材料和杂化卤化物钙钛矿,以设计光电化学电池。此外,讨论了提高器件性能和稳定性的有前途的设计策略。
更新日期:2020-04-03
中文翻译:
用于光电化学水分解的杂化有机-无机材料和复合材料
能够有机和无机材料的优点协同作用的有机-无机杂化材料已经成为一类具有定制性能和增强的能量转换效率的新型多功能材料。在本《焦点评论》中,简要总结了有机-无机杂化技术的最新成果,这些杂化技术用于水分解和氢作为清洁和可再生燃料的产生。审查并比较了两类杂化材料,即有机-无机纳米复合材料和杂化卤化物钙钛矿,以设计光电化学电池。此外,讨论了提高器件性能和稳定性的有前途的设计策略。
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