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Whole-Cell-Based Photosynthetic Biohybrid Systems for Energy and Environmental Applications
ChemPlusChem ( IF 3.0 ) Pub Date : 2021-07-08 , DOI: 10.1002/cplu.202100171 Luxuan Li 1 , Zhijun Xu 1 , Xin Huang 1
ChemPlusChem ( IF 3.0 ) Pub Date : 2021-07-08 , DOI: 10.1002/cplu.202100171 Luxuan Li 1 , Zhijun Xu 1 , Xin Huang 1
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With the increasing awareness of sustainable development, energy and environment are becoming two of the most important issues of concern to the world today. Whole-cell-based photosynthetic biohybrid systems (PBSs), an emerging interdisciplinary field, are considered as attractive biosynthetic platforms with great prospects in energy and environment, combining the superiorities of semiconductor materials with high energy conversion efficiency and living cells with distinguished biosynthetic capacity. This review presents a systematic discussion on the synthesis strategies of whole-cell-based PBSs that demonstrate a promising potential for applications in sustainable solar-to-chemical conversion, including light-facilitated carbon dioxide reduction and biohydrogen production. In the end, the explicit perspectives on the challenges and future directions in this burgeoning field are discussed.
中文翻译:
用于能源和环境应用的基于全细胞的光合生物杂交系统
随着可持续发展意识的日益增强,能源和环境正成为当今世界最为关注的两大问题。基于全细胞的光合生物杂化系统(PBSs)是一个新兴的跨学科领域,结合了半导体材料的高能量转换效率和具有卓越生物合成能力的活细胞的优势,被认为是具有吸引力的生物合成平台,在能源和环境方面具有广阔的前景。这篇综述对基于全细胞的 PBS 的合成策略进行了系统的讨论,这些策略证明了在可持续的太阳能到化学转化中的应用潜力,包括光促进二氧化碳减少和生物制氢。到底,
更新日期:2021-07-19
中文翻译:
用于能源和环境应用的基于全细胞的光合生物杂交系统
随着可持续发展意识的日益增强,能源和环境正成为当今世界最为关注的两大问题。基于全细胞的光合生物杂化系统(PBSs)是一个新兴的跨学科领域,结合了半导体材料的高能量转换效率和具有卓越生物合成能力的活细胞的优势,被认为是具有吸引力的生物合成平台,在能源和环境方面具有广阔的前景。这篇综述对基于全细胞的 PBS 的合成策略进行了系统的讨论,这些策略证明了在可持续的太阳能到化学转化中的应用潜力,包括光促进二氧化碳减少和生物制氢。到底,
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