posted on 2015-12-16, 21:48authored byBala Krishna Pathem, Yue Bing Zheng, John L. Payton, Tze-Bin Song, Byung-Chan Yu, James M. Tour, Yang Yang, Lasse Jensen, Paul S. Weiss
We establish the role of tether conductivity on the photoisomerization
of azobenzene-functionalized molecules assembled as isolated single
molecules in well-defined decanethiolate self-assembled monolayer
matrices on Au{111}. We designed the molecules so as to tune the conductivity
of the tethers that separate the functional moiety from the underlying
Au substrate. By employing surface-enhanced Raman spectroscopy, time-course
measurements of surfaces assembled with azobenzene functionalized
with different tether conductivities were independently studied under
constant UV light illumination. The decay constants from the analyses
reveal that photoisomerization on the Au{111} surface is reduced when
the conductivity of the tether is increased. Experimental results
are compared with density functional theory calculations performed
on single molecules attached to Au clusters.