Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection

We heat-treated an amorphous large-area WO(3) thin film to synthesize high-density, high-quality WO(3) nanorods. The WO(3) nanostructures were effective, especially in reducing gas (hydrogen and helium) atmospheres. By electron microscopy analysis, we confirmed that the thermodynamic energy for form...

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Autores principales: Kim, Youngho, Lee, Sang Hoon, Jeong, Seyoung, Kim, Bum Jun, Choi, Jae-Young, Yu, Hak Ki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2020
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9051613/
https://www.ncbi.nlm.nih.gov/pubmed/35498447
http://dx.doi.org/10.1039/d0ra00795a
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author Kim, Youngho
Lee, Sang Hoon
Jeong, Seyoung
Kim, Bum Jun
Choi, Jae-Young
Yu, Hak Ki
author_facet Kim, Youngho
Lee, Sang Hoon
Jeong, Seyoung
Kim, Bum Jun
Choi, Jae-Young
Yu, Hak Ki
author_sort Kim, Youngho
collection PubMed
description We heat-treated an amorphous large-area WO(3) thin film to synthesize high-density, high-quality WO(3) nanorods. The WO(3) nanostructures were effective, especially in reducing gas (hydrogen and helium) atmospheres. By electron microscopy analysis, we confirmed that the thermodynamic energy for forming oxygen vacancies in the [020] direction was low. We could apply self-crosslinked WO(3) nanostructures to practical sensor device fabrication by simply placing the electrodes without complex processes such as transfer and e-beam lithography. It was used for the production of a UV detector, which reacted very fast (∼0.316 s) and was very sensitive to the actual UV-C (261 nm) wavelength. Also, plasmon-based light absorption through the Ag nanoparticle coating resulted in more than 350-fold improvement in the on/off process during UV-C irradiation.
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spelling pubmed-90516132022-04-29 Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection Kim, Youngho Lee, Sang Hoon Jeong, Seyoung Kim, Bum Jun Choi, Jae-Young Yu, Hak Ki RSC Adv Chemistry We heat-treated an amorphous large-area WO(3) thin film to synthesize high-density, high-quality WO(3) nanorods. The WO(3) nanostructures were effective, especially in reducing gas (hydrogen and helium) atmospheres. By electron microscopy analysis, we confirmed that the thermodynamic energy for forming oxygen vacancies in the [020] direction was low. We could apply self-crosslinked WO(3) nanostructures to practical sensor device fabrication by simply placing the electrodes without complex processes such as transfer and e-beam lithography. It was used for the production of a UV detector, which reacted very fast (∼0.316 s) and was very sensitive to the actual UV-C (261 nm) wavelength. Also, plasmon-based light absorption through the Ag nanoparticle coating resulted in more than 350-fold improvement in the on/off process during UV-C irradiation. The Royal Society of Chemistry 2020-04-06 /pmc/articles/PMC9051613/ /pubmed/35498447 http://dx.doi.org/10.1039/d0ra00795a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Kim, Youngho
Lee, Sang Hoon
Jeong, Seyoung
Kim, Bum Jun
Choi, Jae-Young
Yu, Hak Ki
Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
title Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
title_full Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
title_fullStr Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
title_full_unstemmed Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
title_short Conversion of WO(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
title_sort conversion of wo(3) thin films into self-crosslinked nanorods for large-scale ultraviolet detection
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9051613/
https://www.ncbi.nlm.nih.gov/pubmed/35498447
http://dx.doi.org/10.1039/d0ra00795a
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