Abstract

Hadamard transform SERS microscopy of pyridine at Ag electrodes with focused 514.5-nm, 532.0-nm, and 632.8-nm excitation is reported. It is shown that focused 514.5-nm and 532.0-nm laser excitation produces photochemical or photothermal damage at roughened Ag electrodes. Photo-damage limits the spatial resolution of SERS microprobe and raster-scanned point imaging techniques which use focused green excitation at Ag electrodes.

Effects of inhomogeneous fields in superresolving structured-illumination microscopy

Michael R. Beversluis, Garnett W. Bryant, and Stephan J. Stranick
J. Opt. Soc. Am. A 25(6) 1371-1377 (2008)

SERS study on the synergistic effects of electric field enhancement and charge transfer in an Ag₂S quantum dots/plasmonic bowtie nanoantenna composite system

Bin Wang, Chen Zhao, Huanyu Lu, Tingting Zou, Subhash C. Singh, Zhi Yu, Chaonan Yao, Xin Zheng, Jun Xing, Yuting Zou, Cunzhu Tong, Weili Yu, Bo Zhao, and Chunlei Guo
Photon. Res. 8(4) 548-563 (2020)

Surface enhanced Raman scattering (SERS) by molecules adsorbed at spherical particles: errata

Milton Kerker, Dau-Sing Wang, and H. Chew
Appl. Opt. 19(24) 4159-4174 (1980)

Surface enhanced Raman scattering (SERS) by molecules adsorbed at spherical particles

M. Kerker, D.-S. Wang, and H. Chew
Appl. Opt. 19(19) 3373-3388 (1980)

Effects of the cone angle on the SERS detection sensitivity of tapered fiber probes

Yanyan Qin, Ruidong Huang, Fengya Lu, Haibin Tang, Bo Yao, and Qinghe Mao
Opt. Express 30(21) 37507-37518 (2022)