Dual-Frequency Peak Force Photothermal Microscopy for Simultaneously Spatial Mapping Chemical Distributions and Energy Dissipation

Abstract: Deciphering correlations between physical properties at the nanoscale requires multimodal measurement with high spatial resolution at the nanometer scale. One platform to achieve multimodal imaging is through scanning probe microscopy. In this article, we report the development of dual-frequency peak force photothermal microscopy, which is a multimodal atomic force microscopy (AFM)-based spectroscopic imaging method. The method delivers simultaneous infrared and visible nanoscopy within one AFM scan frame, map… Show more

“…Photothermal, infrared, and nonlinear spectroscopy and microscopy approaches are an integral part of this VSI. Indeed, various flavors of photothermal microscopy and nanoscopy, , unique applications of infrared-based near-field optical microscopy and spectroscopy, , and coherent Raman-based nanoimaging and nanospectroscopy studies are described . In the latter, reproducible enhanced molecular coherent anti-Stokes Raman scattering (CARS) was reported, using a (gently irradiated) Si particle on a mirror platform.…”

Nanophotonics for Chemical Imaging and Spectroscopy

“…Photothermal, infrared, and nonlinear spectroscopy and microscopy approaches are an integral part of this VSI. Indeed, various flavors of photothermal microscopy and nanoscopy, , unique applications of infrared-based near-field optical microscopy and spectroscopy, , and coherent Raman-based nanoimaging and nanospectroscopy studies are described . In the latter, reproducible enhanced molecular coherent anti-Stokes Raman scattering (CARS) was reported, using a (gently irradiated) Si particle on a mirror platform.…”

Nanophotonics for Chemical Imaging and Spectroscopy