Numerical conversion efficiency of thermally isolated Seebeck nanoantennas

Numerical conversion efficiency of thermally isolated Seebeck nanoantennas

In this letter, we evaluate the conversion efficiency of thermally isolated Seebeck nanoantennas by numerical simulations and discuss their uses and scope for energy harvesting applications. This analysis includes the simple case of titanium-nickel dipoles suspended in air above the substrate by a 2...

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Main Authors: Edgar Briones, Carlos Kuri, Irving Cortes-Mestizo, Joel Briones, Heber Vilchis
Format: Article
Language:English
Published: AIP Publishing LLC 2016-11-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4967949
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spelling doaj-e810b970bf964c14bf9a5f7c5e4640bb2020-11-24T21:32:23ZengAIP Publishing LLCAIP Advances2158-32262016-11-01611115018115018-710.1063/1.4967949058611ADVNumerical conversion efficiency of thermally isolated Seebeck nanoantennasEdgar Briones0Carlos Kuri1Irving Cortes-Mestizo2Joel Briones3Heber Vilchis4Department of Mathematics and Physics, ITESO, Jesuit University of Guadalajara, Tlaquepaque, 45604 Jalisco, MéxicoDepartment of Mathematics and Physics, ITESO, Jesuit University of Guadalajara, Tlaquepaque, 45604 Jalisco, MéxicoCIACyT, Universidad Autónoma de San Luis Potosí, San Luis Potosí 78210 SLP, MéxicoDepartment of Mathematics and Physics, ITESO, Jesuit University of Guadalajara, Tlaquepaque, 45604 Jalisco, MéxicoCentro de Investigación y Desarrollo Tecnológico en Energías Renovables, Universidad de Ciencias y Artes de Chiapas, Tuxtla Gutiérrez, 29039 Chiapas, MéxicoIn this letter, we evaluate the conversion efficiency of thermally isolated Seebeck nanoantennas by numerical simulations and discuss their uses and scope for energy harvesting applications. This analysis includes the simple case of titanium-nickel dipoles suspended in air above the substrate by a 200 nm silicon dioxide membrane to isolate the heat dissipation. Results show that substantially thermal gradients are induced along the devices leading to a harvesting efficiency around 10-4 %, 400 % higher than the previously reported Seebeck nanoantennas. In the light of these results, different optimizing strategies should be considered in order to make the Seebeck nanoantennas useful for harvesting applications.http://dx.doi.org/10.1063/1.4967949
collection DOAJ
language English
format Article
sources DOAJ
author Edgar Briones
Carlos Kuri
Irving Cortes-Mestizo
Joel Briones
Heber Vilchis
spellingShingle Edgar Briones
Carlos Kuri
Irving Cortes-Mestizo
Joel Briones
Heber Vilchis
Numerical conversion efficiency of thermally isolated Seebeck nanoantennas
AIP Advances
author_facet Edgar Briones
Carlos Kuri
Irving Cortes-Mestizo
Joel Briones
Heber Vilchis
author_sort Edgar Briones
title Numerical conversion efficiency of thermally isolated Seebeck nanoantennas
title_short Numerical conversion efficiency of thermally isolated Seebeck nanoantennas
title_full Numerical conversion efficiency of thermally isolated Seebeck nanoantennas
title_fullStr Numerical conversion efficiency of thermally isolated Seebeck nanoantennas
title_full_unstemmed Numerical conversion efficiency of thermally isolated Seebeck nanoantennas
title_sort numerical conversion efficiency of thermally isolated seebeck nanoantennas
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2016-11-01
description In this letter, we evaluate the conversion efficiency of thermally isolated Seebeck nanoantennas by numerical simulations and discuss their uses and scope for energy harvesting applications. This analysis includes the simple case of titanium-nickel dipoles suspended in air above the substrate by a 200 nm silicon dioxide membrane to isolate the heat dissipation. Results show that substantially thermal gradients are induced along the devices leading to a harvesting efficiency around 10-4 %, 400 % higher than the previously reported Seebeck nanoantennas. In the light of these results, different optimizing strategies should be considered in order to make the Seebeck nanoantennas useful for harvesting applications.
url http://dx.doi.org/10.1063/1.4967949
work_keys_str_mv AT edgarbriones numericalconversionefficiencyofthermallyisolatedseebecknanoantennas
AT carloskuri numericalconversionefficiencyofthermallyisolatedseebecknanoantennas
AT irvingcortesmestizo numericalconversionefficiencyofthermallyisolatedseebecknanoantennas
AT joelbriones numericalconversionefficiencyofthermallyisolatedseebecknanoantennas
AT hebervilchis numericalconversionefficiencyofthermallyisolatedseebecknanoantennas
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