Far-field Optical Microscopy of Single Metal Nanoparticles
Overview
Affiliations
Individual noble-metal particles, with sizes ranging from a few tenths to some hundreds of nanometers, can now be detected by far-field optics. Single-particle microscopy gives access to inhomogeneity, distributions, and fluctuations, which were previously hidden in ensemble experiments. Scattering methods rely on dark-field illumination, spectral signatures of the metal particles, or both. More advanced techniques provide high sensitivity and improved selectivity with respect to other scatterers by isolating metal-specific signals, for example the refractive index change due to heating of the environment by a pump beam or the time-resolved optical response of the particle to a short pump pulse. We review and compare linear and nonlinear methods in far-field optical microscopy that have reached the single-particle regime by means of scattered light, thermal effects, photoluminescence, or nonlinear frequency generation.
Shi Y, Wang L, Li L, Feng C, Cao Y ChemistryOpen. 2024; 14(3):e202400017.
PMID: 39727228 PMC: 11891451. DOI: 10.1002/open.202400017.
Gross N, Kuhs C, Ostovar B, Chiang W, Wilson K, Volek T J Phys Chem C Nanomater Interfaces. 2023; 127(30):14557-14586.
PMID: 37554548 PMC: 10406104. DOI: 10.1021/acs.jpcc.3c02091.
Intrinsic luminescence blinking from plasmonic nanojunctions.
Chen W, Roelli P, Ahmed A, Verlekar S, Hu H, Banjac K Nat Commun. 2021; 12(1):2731.
PMID: 34021133 PMC: 8139969. DOI: 10.1038/s41467-021-22679-y.
Sevenler D, Avci O, Unlu M Biomed Opt Express. 2017; 8(6):2976-2989.
PMID: 28663920 PMC: 5480443. DOI: 10.1364/BOE.8.002976.
Interferometric scattering microscopy and its combination with single-molecule fluorescence imaging.
Ortega Arroyo J, Cole D, Kukura P Nat Protoc. 2016; 11(4):617-33.
PMID: 26938114 DOI: 10.1038/nprot.2016.022.