Levanon H, Möbius K
Department of Physical Chemistry, Hebrew University of Jerusalem, Israel.
Annu Rev Biophys Biomol Struct. 1997;26:495-540. doi: 10.1146/annurev.biophys.26.1.495.
This review focuses on the recent advances in EPR spectroscopy as they are applied both to photoinduced electron transfer in the photosynthetic apparatus and to biomimetic systems. The review deals with time-resolved direct-detection cw and pulsed EPR and ENDOR methods, both at conventional bands [X-(9.5 GHz), K-(24 GHz), and Q-(35 GHz)(] and at high frequency bands (W-band, 95 GHz, and even higher frequency bands). EPR studies on photosynthetic and model systems in their doublet, triplet and radical pair states are surveyed, including their static and dynamic properties. APplications of time-resolved EPR in studying photoinduced electron and energy transfer in isotropic and anisotropic environments, and the concepts of electron spin polarization and magnetic field effects in photochemical reactions are also reviewed.
本综述聚焦于电子顺磁共振(EPR)光谱学的最新进展,这些进展既应用于光合机构中的光致电子转移,也应用于仿生体系。该综述涉及时间分辨直接检测连续波和脉冲EPR及电子核双共振(ENDOR)方法,涵盖传统波段[X波段(9.5吉赫兹)、K波段(24吉赫兹)和Q波段(35吉赫兹)]以及高频波段(W波段,95吉赫兹,甚至更高频率波段)。对光合体系和模型体系在其双重态、三重态和自由基对状态下的EPR研究进行了概述,包括它们的静态和动态特性。还综述了时间分辨EPR在研究各向同性和各向异性环境中的光致电子和能量转移方面的应用,以及光化学反应中电子自旋极化和磁场效应的概念。