通过扭摆式异构化进行的光异构化：一种基本的超分子光化学反应。

Photoisomerization by hula-twist: a fundamental supramolecular photochemical reaction.

作者信息

Liu R S

机构信息

Department of Chemistry, University of Hawaii, 2545 The Mall, Honolulu, Hawaii 96822, USA.

出版信息

Acc Chem Res. 2001 Jul;34(7):555-62. doi: 10.1021/ar000165c.

DOI:10.1021/ar000165c

PMID:11456473

Abstract

The volume-conserving hula-twist cis/trans isomerization process has been incorporated in a general scheme for photoisomerization of polyenes, applicable to small organic molecules as well as to protein-bound polyene chromophores. The main theme is that in solution the conventional one-bond-flip mechanism dominates, while in frozen media (or under other forms of supramolecular constraint) the hula-twist mechanism takes over. Literature examples of photoisomerization obtained under confined conditions have been critically reviewed, the applicability of HT has been examined, and new systems unambiguously testing this volume-conserving process are proposed.

摘要

体积守恒的呼啦圈扭转顺反异构化过程已被纳入多烯光异构化的一般方案中，该方案适用于小分子有机化合物以及与蛋白质结合的多烯发色团。主要观点是，在溶液中，传统的单键翻转机制占主导地位，而在冷冻介质（或在其他形式的超分子约束下）中，呼啦圈扭转机制起主导作用。对在受限条件下获得的光异构化的文献实例进行了批判性综述，研究了呼啦圈扭转机制的适用性，并提出了明确测试这种体积守恒过程的新系统。

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通过扭摆式异构化进行的光异构化：一种基本的超分子光化学反应。

Photoisomerization by hula-twist: a fundamental supramolecular photochemical reaction.

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