光合作用、色素-蛋白复合物和电子能量传递:复杂过程的简单模型。
Photosynthesis, pigment-protein complexes and electronic energy transport: simple models for complicated processes.
出版信息
Sci Prog. 2017 Sep 1;100(3):313-330. doi: 10.3184/003685017X14967574639964. Epub 2017 Aug 5.
Abstract
In this review, we discuss our recent work on modelling biological pigment-protein complexes, such as the Fenna-Matthews-Olson complex and light-harvesting complex-II, to explain their electronic energy transport properties. In particular, we highlight how a network-based analysis approach, where the light-absorbing pigments are treated as a network of interconnected nodes, can provide a qualitative picture of quantum dynamic energy transport. With this in mind, we demonstrate how other properties such as robustness to environmental changes can be assessed in a simple and computationally tractable manner. Such analyses could prove useful for the design of artificial energy transport networks such as those which might find application in solar cells.
摘要
在这篇综述中,我们讨论了我们最近在建模生物色素-蛋白复合物方面的工作,例如 Fenna-Matthews-Olson 复合物和光捕获复合物-II,以解释它们的电子能量输运性质。特别是,我们强调了如何通过基于网络的分析方法,将吸光色素视为相互连接的节点网络,来提供量子动力学能量输运的定性描述。有鉴于此,我们展示了如何以简单且计算上易于处理的方式评估其他性质,例如对环境变化的稳健性。这样的分析可能对人工能量输运网络的设计有用,例如那些可能在太阳能电池中找到应用的网络。
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本文引用的文献
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Toward Reliable Prediction of the Energy Ladder in Multichromophoric Systems: A Benchmark Study on the FMO Light-Harvesting Complex.迈向多发色团体系中能量阶梯的可靠预测:对FMO光捕获复合体的基准研究。
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Toward Ab Initio Optical Spectroscopy of the Fenna-Matthews-Olson Complex.迈向芬纳-马修斯-奥尔森复合物的从头算光学光谱学。
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