Measuring reversible photomechanical switching rates for a molecule at a surface
Article 2008 en
Authors
MC
Matthew Comstock
NL
Niv Levy
JC
Jongweon Cho
Abstract
1 min read
We have used single-molecule-resolved scanning tunneling microscopy to measure the photomechanical switching rates of azobenzene-derived molecules at a gold surface during exposure to UV and visible light. This enables the direct determination of both the forward and reverse photoswitching cross sections for surface-mounted molecules at different wavelengths. In a dramatic departure from molecular behavior in solution-based environments, visible light does not efficiently reverse the reaction for azobenzene-derived molecules at a gold surface.
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
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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