351523-94-9Relevant articles and documents
A Redox-Switchable Molecular Zipper
Dumartin, Melissa,Lipke, Mark C.,Stoddart, J. Fraser
, p. 18308 - 18317 (2019)
The design and synthesis of artificial molecular switches (AMSs) displaying architectures of increased complexity would constitute significant progress in meeting the challenging task of realizing artificial molecular machines (AMMs). Here, we report the
Mechanistic evaluation of motion in redox-driven rotaxanes reveals longer linkers hasten forward escapes and hinder backward translations
Andersen, Sissel S.,Share, Andrew I.,Poulsen, Bj?rn La Cour,K?rner, Mads,Duedal, Troels,Benson, Christopher R.,Hansen, Stinne W.,Jeppesen, Jan O.,Flood, Amar H.
supporting information, p. 6373 - 6384 (2014/05/20)
Mechanistic understanding of the translational movements in molecular switches is essential for designing machine-like prototypes capable of following set pathways of motion. To this end, we demonstrated that increasing the station-to-station distance wil
A Fast-moving copper-based molecular shuttle: Synthesis and dynamic properties
Durola, Fabien,Lux, Jacques,Sauvage, Jean-Pierre
experimental part, p. 4124 - 4134 (2009/11/30)
The present report deals with the synthesis of a two-station [2]ro-taxane consisting of a dpbiiq-incorpo-rating macrocycle (dpbiiq: 8,8′-diphen-yl- 3,3′-biisoquinoline) threaded by a coordinating fragment whose complex-ing units are a dpp and a terpy liga
