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Revolutionary Breakthroughs in Photosynthesis and “Artii cial Chloroplast”

Revolutionary Breakthroughs in Photosynthesis and “Artii cial Chloroplast”
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摘要 As the largest-scale reaction process of energy and matter transformation as well as the largest-scale solar energy utilization on earth,photosynthesis providesorganic compounds,energy and oxygen for almost all life activities.Therefore,the process of photosynthesis can be considered to be closely related to the solutions for As the largest-scale reaction process of energy and matter transformation as well as the largest-scale solar energy utilization on earth, photosynthesis provides organic compounds, energy and oxygen for almost all life activities.
出处 《Bulletin of the Chinese Academy of Sciences》 2014年第1期24-27,共4页 中国科学院院刊(英文版)
关键词 光合作用 叶绿体 革命性 人工 最大规模 太阳能利用 有机化合物 物质转化
分类号 Q945 [生物学—植物学]
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参考文献15

  • 1Chinese Academy of Sciences, 2009. The Science and Technology of Biomass Resources in China: A Roadmap to 2050. Beijing: Science Press, pp.13-36.
  • 2Scientists aim to improve photosynthesis to increase food and fuel production. http://news.jic.ac.ukl2011/03/scientists-aim-to-improve-photosynthesisl.
  • 3Umena, Y. et aI., 2011. Crystal structure of oxygen-evolving photosystem II at a resolution of 1.9 A. Nature: 473, 55-60. 001: 10.1038/nature09913.
  • 4Breakthrough of the year, 2011. Science: 1629-1635.
  • 5Milikisiyants, S. et aI., 2012. The structure and activation of substrate water molecules in the S2 state of photosystem II studied by hyperfine sublevel correlation spectroscopy. Energy & Environmental Science: 5, 7747·7756.
  • 6Duan, L. et aI., 2012. A molecularruthenium catalyst with water-oxidation activity comparable to that of photosystem II. Nature Chemistry: 4, 418-423. DOl: 10.10381 nchem.1301.
  • 7Reece, S. et aI., 2011.Wireless solar water splitting using allicon-based semiconductors and earth-abundant catalysts. Science: 334, 645-648. DOl: 10.11261 science.1209816.
  • 8Hildner, R. et aI., 2013. Quantum coherent energy transfer over varying pathways in single light-harvesting complexes. Science: 340, 1448-1451. DOl: 10.11261 science. 1235820.
  • 9UEA scientists mimic nature in £800,000 renewable energy project. 2013. http://www.bbsrc.ac.uk/news/industrialbiotechnology/2013/130122-n-uea-scientists-mimicnature.aspx.
  • 10Mershin, A. et aI., 2012. Self-assembled photosystem-I biophotovoltaics on nanostructured Ti02 and ZnO. Nature: Science Reports: 2, 234. DOl: 10.1 038/srep00234.
Bulletin of the Chinese Academy of Sciences
2014年 第1期

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