Unidirectional Redox-Stimulated Movement around a CC Single Bond

A remarkable challenge for the design of molecular machines is the realization of a synchronized and unidirectional movement caused by an external stimulus. Such a movement can be achieved by a unidirectionally controlled change of the conformation or the configuration. Biphenol derivatives are one possibility to realize a redox‐driven unidirectional molecular switch. For this reason, a 4,4′‐biphenol derivative was fixed to a chiral cyclopeptidic scaffold and stimulated by chemical oxidants and reduction agents. The conformation of the switch was determined by DFT calculations by using B3LYP and the 6‐31G* basis set. The switching process was observed by UV and circular dichroism (CD) spectroscopic measurements. Several oxidation agents and various conditions were tested, among which (diacetoxy)iodobenzene (DAIB) in methanol proved to be the best. In this way it was possible to synthesize a redox‐stimulated molecular switch with a movement that is part of a rotation around a biaryl binding axis. Switch and spin: The linkage of a biphenol derivative with a C2‐symmetric cyclopeptidic structural unit leads to the redox switch (P)‐1 (see scheme), which can perform a unidirectional movement around a CC single bond.