Oxidative and reductive cyclization in stiff dithienylethenes

Oxidative and reductive cyclization in stiff dithienylethenes

The electrochemical behavior of stiff dithienylethenes, undergoing double bond isomerization in addition to ring-closure, has been investigated. Electrochromism was observed in almost all cases, with the major pathway being the oxidatively induced cyclization of the open isomers. The influence of th...

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Bibliographic Details
Main Authors: Michael Kleinwächter, Ellen Teichmann, Lutz Grubert, Martin Herder, Stefan Hecht
Format: Article
Language:English
Published: Beilstein-Institut 2018-11-01
Series:Beilstein Journal of Organic Chemistry
Subjects:
diarylethenes
electrochromism
molecular switches
(spectro)electrochemistry
Online Access:https://doi.org/10.3762/bjoc.14.259
Description
Summary:The electrochemical behavior of stiff dithienylethenes, undergoing double bond isomerization in addition to ring-closure, has been investigated. Electrochromism was observed in almost all cases, with the major pathway being the oxidatively induced cyclization of the open isomers. The influence of the ring size (to lock the reactive antiparallel conformation) as well as substituents (to modulate the redox potential) on the electrocyclization was examined. In the series of derivatives with 6-membered rings, both the E- and the Z-isomer convert to the closed isomer, whereas for the 7-membered rings no cyclization from the E-isomer was observed. For both stiff and normal dithienylethenes bearing benzonitrile substituents an additional and rare reductive electrocyclization was observed. The mechanism underlying both observed electrocyclization pathways has been elucidated.
ISSN:1860-5397

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