Determination of Photoswitching Dynamics through Chiral Mapping of Single Molecules Using a Scanning Tunneling Microscope — Matthew Comstock (2010) | RDL Network
Determination of Photoswitching Dynamics through Chiral Mapping of Single Molecules Using a Scanning Tunneling Microscope
Article 2010 en
Authors
MC
Matthew Comstock
DS
David A. Strubbe
LB
Luis Berbil-Bautista
Abstract
1 min read
Single-molecule-resolved scanning tunneling microscopy of tetra-tert-butyl azobenzene (TTB-AB) molecules adsorbed onto Au(111) reveals chirality selection rules in their photoswitching behavior. This observation is enabled by the fact that trans-TTB-AB molecules self-assemble into homochiral domains. Cis-TTB-AB molecules produced via photoisomerization are found in two distinct conformations with final state chirality determined by the initial trans isomer chirality. Based on these observations and ab initio calculations, we propose a new inversion-based dynamical photoswitching mechanism for azobenzene molecules at a surface.
Niv Levy, Matthew Comstock, Jongweon Cho, Luis Berbil-Bautista, А. Киракосян, Frank Lauterwasser, Daniel A. Poulsen, Jean Mj Frechet, Michael F. Crommie
Matthew Comstock, Niv Levy, А. Киракосян, Jongweon Cho, Frank Lauterwasser, Jessica H. Harvey, David A. Strubbe, Jean Mj Frechet, Dirk Trauner, Steven G. Louie, Michael F. Crommie
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