Reversible Photomechanical Switching of Individual Engineered Molecules at a Metallic Surface
Article 2007 en
Authors
MC
Matthew Comstock
NL
Niv Levy
АК
А. Киракосян
Abstract
1 min read
We have observed reversible light-induced mechanical switching for individual organic molecules bound to a metal surface. Scanning tunneling microscopy (STM) was used to image the features of individual azobenzene molecules on Au(111) before and after reversibly cycling their mechanical structure between trans and cis states using light. Azobenzene molecules were engineered to increase their surface photomechanical activity by attaching varying numbers of tert-butyl (TB) ligands ("legs") to the azobenzene phenyl rings. STM images show that increasing the number of TB legs "lifts" the azobenzene molecules from the substrate, thereby increasing molecular photomechanical activity by decreasing molecule-surface coupling.
Niv Levy, Matthew Comstock, Jongweon Cho, Luis Berbil-Bautista, А. Киракосян, Frank Lauterwasser, Daniel A. Poulsen, Jean Mj Frechet, Michael F. Crommie
Matthew Comstock, David A. Strubbe, Luis Berbil-Bautista, Niv Levy, Jongweon Cho, Daniel A. Poulsen, Jean Mj Frechet, Steven G. Louie, Michael F. Crommie
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