光合作用的量子设计用于仿生太阳能转化。

Quantum design of photosynthesis for bio-inspired solar-energy conversion.

机构信息

Department of Physics and Astronomy, Faculty of Sciences, VU University, 1081 HV Amsterdam, the Netherlands.

A. N. Belozersky Institute of Physico-Chemical Biology, Moscow State University, Leninskie Gory, 119992 Moscow, Russia.

出版信息

Nature. 2017 Mar 15;543(7645):355-365. doi: 10.1038/nature22012.

DOI:10.1038/nature22012

PMID:28300093

Abstract

Photosynthesis is the natural process that converts solar photons into energy-rich products that are needed to drive the biochemistry of life. Two ultrafast processes form the basis of photosynthesis: excitation energy transfer and charge separation. Under optimal conditions, every photon that is absorbed is used by the photosynthetic organism. Fundamental quantum mechanics phenomena, including delocalization, underlie the speed, efficiency and directionality of the charge-separation process. At least four design principles are active in natural photosynthesis, and these can be applied practically to stimulate the development of bio-inspired, human-made energy conversion systems.

摘要

光合作用是将太阳能转化为生物化学所需的高能产物的自然过程。光合作用的两个超快过程是激发能量转移和电荷分离。在最佳条件下，光合作用体利用吸收的每一个光子。包括离域在内的基本量子力学现象为电荷分离过程的速度、效率和方向性提供了基础。至少有四个设计原则在自然光合作用中起作用，这些原则可以实际应用于激发仿生、人造能量转换系统的发展。

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光合作用的量子设计用于仿生太阳能转化。

Quantum design of photosynthesis for bio-inspired solar-energy conversion.

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