Self-Patterned Molecular Photoswitching in Nanoscale Surface Assemblies
Article 2009 en
Authors
NL
Niv Levy
MC
Matthew Comstock
JC
Jongweon Cho
Abstract
1 min read
Photomechanical switching (photoisomerization) of molecules at a surface is found to strongly depend on molecule-molecule interactions and molecule-surface orientation. Scanning tunneling microscopy was used to image photoswitching behavior in the single-molecule limit of tetra-tert-butyl-azobenzene molecules adsorbed onto Au(111) at 30 K. Photoswitching behavior varied strongly with surface molecular island structure, and self-patterned stripes of switching and nonswitching regions were observed having approximately 10 nm pitch. These findings can be summarized into photoswitching selection rules that highlight the important role played by a molecule's nanoscale environment in determining its switching properties.
Matthew Comstock, David A. Strubbe, Luis Berbil-Bautista, Niv Levy, Jongweon Cho, Daniel A. Poulsen, Jean Mj Frechet, Steven G. Louie, 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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