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作 者:Bo Wang Liang Shi Anhuai Lu
机构地区:[1]CAS Key Laboratory of Quantitative Engineering Biology,Center for Materials Synthetic Biology,Shenzhen Institute of Synthetic Biology,Shenzhen Institutes of Advanced Technology,Chinese Academy of Sciences,Shenzhen,China [2]Department of Biological Sciences and Technology,School of Environmental Studies,China University of Geosciences,Wuhan,China [3]Beijing Key Laboratory of Mineral Environmental Function,Key Laboratory of Orogenic Belts and Crustal Evolution,School of Earth and Space Sciences,Peking University,Beijing,China
出 处:《mLife》2024年第4期532-536,共5页微生物(英文)
基 金:supported by the National Natural Science Foundation of China(92251301[A.L.],22008252[B.W.],and 91851211[L.S.]);the National Key Research and Development Program of China(2019YFC1805900[A.L.],2018YFA0901303[L.S.],and 2022YFA0912800[B.W.]).
摘 要:Photosynthesis has been the cornerstone of solar energy conversion on Earth for billions of years,crucial for sustaining the biosphere and maintaining the carbon and water cycles.However,with the rise of industrial civilization,natural photosynthesis alone has become insufficient to meet growing energy and product demands1,leading to extensive fossil fuel use,environmental pollution,and energy crises.In response,scientists have sought to enhance natural photosynthesis through genetic engineering and synthetic biology2,or to develop alternative solar conversion methods using advanced materials science3.
关 键 词:solar energy fossil fuel PHOTOSYNTHESIS nonphotosynthetic microorganisms carbon water genetic engineering sustaining biosphere semiconductor photocatalysis
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