Understanding Metal-Adsorbate Binding with Surface-Enhanced Raman Spectroscopy: Theory and Experiment

Alexey Zayak; Hyuck Choo; Ying Hu; Jeffrey Bokor; Stefano Cabrini; James Schuck; Jeffrey B. Neaton

Understanding Metal-Adsorbate Binding with Surface-Enhanced Raman Spectroscopy: Theory and Experiment

ORAL

Abstract

Building on recent work [1], we use a combination of density functional theory (DFT) calculations and surface-enhanced Raman spectroscopy (SERS) measurements to explain experimentally observed variations in SERS data of an organic molecule, trans-1,2-two (4-pyridyl) ethylene (BPE). For the BPE on Au surfaces, our DFT calculations provide a quantitative description of chemical enhancement (CE), and elucidate that variations reported in experiments arise from a convolution of two factors: a nonuniform frequency dependent electromagnetic enhancement, and dependence of CE on the sample incubation time. The later reveals aspects of the binding kinetics of BPE to Au surfaces.\\[4pt] [1] A. T. Zayak,et. al., arXiv:1011.1873v1

^*We acknowledge support from DOE and DARPA. Computational resources provided by NERSC.

March 21, 2011, 4:54 PM – March 21, 2011, 5:06 PM

Authors

Alexey Zayak
- Lawrence Berkeley National Laboratory
- Molecular Foundry, LBNL
Hyuck Choo
- EECS, UC Berkeley
Ying Hu
- Bioengineering Dpt., Rice University
Jeffrey Bokor
- University of California, Berkeley
- EECS, UC Berkeley
Stefano Cabrini
- Molecular Foundry Lawrence Berkeley National Laboratory
- Molecular Foundry, LBNL
James Schuck
- Molecular Foundry, LBNL
Jeffrey B. Neaton
- Molecular Foundry, LBNL
- Molecular Foundry, Lawrence Berkeley National Laboratory