Nanoscale Optical Microscopy and Spectroscopy Using Near-Field Probes
- PMID: 29596000
- DOI: 10.1146/annurev-chembioeng-060817-084150
Nanoscale Optical Microscopy and Spectroscopy Using Near-Field Probes
Abstract
Light-matter interactions can provide a wealth of detailed information about the structural, electronic, optical, and chemical properties of materials through various excitation and scattering processes that occur over different length, energy, and timescales. Unfortunately, the wavelike nature of light limits the achievable spatial resolution for interrogation and imaging of materials to roughly λ/2 because of diffraction. Scanning near-field optical microscopy (SNOM) breaks this diffraction limit by coupling light to nanostructures that are specifically designed to manipulate, enhance, and/or extract optical signals from very small regions of space. Progress in the SNOM field over the past 30 years has led to the development of many methods to optically characterize materials at lateral spatial resolutions well below 100 nm. We review these exciting developments and demonstrate how SNOM is truly extending optical imaging and spectroscopy to the nanoscale.
Keywords: SNOM; TERS; diffraction limit; nanoscale imaging; optical spectroscopy; scanning near-field optical microscopy; tip-enhanced Raman scattering.
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