Resonant Nonplasmonic Nanoparticles for Efficient Temperature-Feedback Optical Heating

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2017 Apr 15

PMID 28409632

Citations 17

Authors

George P Zograf

Mihail I Petrov

Dmitry A Zuev

Pavel A Dmitriev

Valentin A Milichko

Sergey V Makarov

Pavel A Belov

Affiliations

Soon will be listed here.

Abstract

We propose a novel photothermal approach based on resonant dielectric nanoparticles, which possess imaginary part of permittivity significantly smaller as compared to metal ones. We show both experimentally and theoretically that a spherical silicon nanoparticle with a magnetic quadrupolar Mie resonance converts light to heat up to 4 times more effectively than similar spherical gold nanoparticle at the same heating conditions. We observe photoinduced temperature raise up to 900 K with the silicon nanoparticle on a glass substrate at moderate intensities (<2 mW/μm) and typical laser wavelength (633 nm). The advantage of using crystalline silicon is the simplicity of local temperature control by means of Raman spectroscopy working in a broad range of temperatures, that is, up to the melting point of silicon (1690 K) with submicrometer spatial resolution. Our CMOS-compatible heater-thermometer nanoplatform paves the way to novel nonplasmonic photothermal applications, extending the temperature range and simplifying the thermoimaging procedure.

Citing Articles

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Nonlinear optical heating of all-dielectric super-cavity: efficient light-to-heat conversion through giant thermorefractive bistability.

Ryabov D, Pashina O, Zograf G, Makarov S, Petrov M Nanophotonics. 2024; 11(17):3981-3991.

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Photo-thermo-optical modulation of Raman scattering from Mie-resonant silicon nanostructures.

Vikram M, Nishida K, Li C, Riabov D, Pashina O, Tang Y Nanophotonics. 2024; 13(18):3581-3589.

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Ultrasensitive Photothermal Switching with Resonant Silicon Metasurfaces at Visible Bands.

Che Y, Zhang T, Shi T, Deng Z, Cao Y, Guan B Nano Lett. 2023; 24(2):576-583.

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Photothermal Nanomaterials: A Powerful Light-to-Heat Converter.

Cui X, Ruan Q, Zhuo X, Xia X, Hu J, Fu R Chem Rev. 2023; 123(11):6891-6952.

PMID: 37133878 PMC: 10273250. DOI: 10.1021/acs.chemrev.3c00159.