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Title: Engineering Localized Surface Plasmon Interactions in Gold by Silicon Nanowire for Enhanced Heating and Photocatalysis

Journal Article · · Nano Letters
 [1];  [1];  [2];  [1];  [3];  [4]; ORCiD logo [1]
  1. Univ. of Pennsylvania, Philadelphia, PA (United States). Dept. of Materials Science and Engineering
  2. Univ. of Pennsylvania, Philadelphia, PA (United States). Dept. of Chemistry
  3. Los Alamos National Lab. (LANL), Los Alamos, NM (United States)
  4. Univ. of Pennsylvania, Philadelphia, PA (United States). Dept. of Materials Science and Engineering. Dept. of Chemistry
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The field of plasmonics has attracted considerable attention in recent years because of potential applications in various fields such as nanophotonics, photovoltaics, energy conversion, catalysis, and therapeutics. It is becoming increasing clear that intrinsic high losses associated with plasmons can be utilized to create new device concepts to harvest the generated heat. It is therefore important to design cavities, which can harvest optical excitations efficiently to generate heat. In this paper, we report a highly engineered nanowire cavity, which utilizes a high dielectric silicon core with a thin plasmonic film (Au) to create an effective metallic cavity to strongly confine light, which when coupled with localized surface plasmons in the nanoparticles of the thin metal film produces exceptionally high temperatures upon laser irradiation. Raman spectroscopy of the silicon core enables precise measurements of the cavity temperature, which can reach values as high as 1000 K. The same Si–Au cavity with enhanced plasmonic activity when coupled with TiO2 nanorods increases the hydrogen production rate by ~40% compared to similar Au–TiO2 system without Si core, in ethanol photoreforming reactions. Finally, these highly engineered thermoplasmonic devices, which integrate three different cavity concepts (high refractive index core, metallo-dielectric cavity, and localized surface plasmons) along with the ease of fabrication demonstrate a possible pathway for designing optimized plasmonic devices with applications in energy conversion and catalysis.

Research Organization:
Univ. of Pennsylvania, Philadelphia, PA (United States); Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES); Univ. of Pennsylvania (United States)
Grant/Contract Number:
AC52-06NA25396; AC04-94AL85000
OSTI ID:
1374330
Report Number(s):
LA-UR-17-21823
Journal Information:
Nano Letters, Vol. 17, Issue 3; ISSN 1530-6984
Publisher:
American Chemical SocietyCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 47 works
Citation information provided by
Web of Science

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Cited By (6)

Exploring the potential of high resolution inductively coupled plasma mass spectrometry towards non-destructive control and validation of electroless gold nanoparticles onto silicon nanowires hybrids journal January 2019
Recent development of plasmon-mediated photocatalysts and their potential in selectivity regulation journal January 2018
Plasmonic nanoparticle-film-assisted photoelectrochemical catalysis across the entire visible-NIR region journal January 2019
High-temperature stable plasmonic and cavity resonances in metal nanoparticle-decorated silicon nanopillars for strong broadband absorption in photothermal applications journal January 2019
Plasmon‐Enhanced Photoelectrochemical Water Splitting for Efficient Renewable Energy Storage journal December 2018
Morphology-Graded Silicon Nanowire Arrays via Chemical Etching: Engineering Optical Properties at the Nanoscale and Macroscale journal March 2020

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Related Subjects

37 INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
cavity heating
Localized surface plasmons
metallo-dielectric cavity
nanowire
photoreforming
Raman spectroscopy
silicon
thermoplasmonics