An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration

In the present investigation, electron beam-influenced modifications on the CO gas sensing properties of indium doped ZnO (IZO) thin films were reported. Dose rates of 5, 10, and 15 kGy were irradiated to the IZO nano films while maintaining the In doping concentration to be 15 wt%. The wurtzite str...

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Autores principales: Ani, Aninamol, Poornesh, P., Antony, Albin, Nagaraja, K. K., Rao, Ashok, Hegde, Gopalkrishna, Kolesnikov, Evgeny, Shchetinin, Igor V., Kulkarni, Suresh D., Petwal, Vikash Chandra, Verma, Vijay Pal, Dwivedi, Jishnu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8618427/
https://www.ncbi.nlm.nih.gov/pubmed/34835915
http://dx.doi.org/10.3390/nano11113151
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author Ani, Aninamol
Poornesh, P.
Antony, Albin
Nagaraja, K. K.
Rao, Ashok
Hegde, Gopalkrishna
Kolesnikov, Evgeny
Shchetinin, Igor V.
Kulkarni, Suresh D.
Petwal, Vikash Chandra
Verma, Vijay Pal
Dwivedi, Jishnu
author_facet Ani, Aninamol
Poornesh, P.
Antony, Albin
Nagaraja, K. K.
Rao, Ashok
Hegde, Gopalkrishna
Kolesnikov, Evgeny
Shchetinin, Igor V.
Kulkarni, Suresh D.
Petwal, Vikash Chandra
Verma, Vijay Pal
Dwivedi, Jishnu
author_sort Ani, Aninamol
collection PubMed
description In the present investigation, electron beam-influenced modifications on the CO gas sensing properties of indium doped ZnO (IZO) thin films were reported. Dose rates of 5, 10, and 15 kGy were irradiated to the IZO nano films while maintaining the In doping concentration to be 15 wt%. The wurtzite structure of IZO films is observed from XRD studies post electron beam irradiation, confirming structural stability, even in the intense radiation environment. The surface morphological studies by SEM confirms the granular structure with distinct and sharp grain boundaries for 5 kGy and 10 kGy irradiated films whereas the IZO film irradiated at 15 kGy shows the deterioration of defined grains. The presence of defects viz oxygen vacancies, interstitials are recorded from room temperature photoluminescence (RTPL) studies. The CO gas sensing estimations were executed at an optimized operating temperature of 300 °C for 1 ppm, 2 ppm, 3 ppm, 4 ppm, and 5 ppm. The 10 kGy treated IZO film displayed an enhanced sensor response of 2.61 towards low concentrations of 1 ppm and 4.35 towards 5 ppm. The enhancement in sensor response after irradiation is assigned to the growth in oxygen vacancies and well-defined grain boundaries since the former and latter act as vital adsorption locations for the CO gas.
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spelling pubmed-86184272021-11-27 An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration Ani, Aninamol Poornesh, P. Antony, Albin Nagaraja, K. K. Rao, Ashok Hegde, Gopalkrishna Kolesnikov, Evgeny Shchetinin, Igor V. Kulkarni, Suresh D. Petwal, Vikash Chandra Verma, Vijay Pal Dwivedi, Jishnu Nanomaterials (Basel) Article In the present investigation, electron beam-influenced modifications on the CO gas sensing properties of indium doped ZnO (IZO) thin films were reported. Dose rates of 5, 10, and 15 kGy were irradiated to the IZO nano films while maintaining the In doping concentration to be 15 wt%. The wurtzite structure of IZO films is observed from XRD studies post electron beam irradiation, confirming structural stability, even in the intense radiation environment. The surface morphological studies by SEM confirms the granular structure with distinct and sharp grain boundaries for 5 kGy and 10 kGy irradiated films whereas the IZO film irradiated at 15 kGy shows the deterioration of defined grains. The presence of defects viz oxygen vacancies, interstitials are recorded from room temperature photoluminescence (RTPL) studies. The CO gas sensing estimations were executed at an optimized operating temperature of 300 °C for 1 ppm, 2 ppm, 3 ppm, 4 ppm, and 5 ppm. The 10 kGy treated IZO film displayed an enhanced sensor response of 2.61 towards low concentrations of 1 ppm and 4.35 towards 5 ppm. The enhancement in sensor response after irradiation is assigned to the growth in oxygen vacancies and well-defined grain boundaries since the former and latter act as vital adsorption locations for the CO gas. MDPI 2021-11-22 /pmc/articles/PMC8618427/ /pubmed/34835915 http://dx.doi.org/10.3390/nano11113151 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ani, Aninamol
Poornesh, P.
Antony, Albin
Nagaraja, K. K.
Rao, Ashok
Hegde, Gopalkrishna
Kolesnikov, Evgeny
Shchetinin, Igor V.
Kulkarni, Suresh D.
Petwal, Vikash Chandra
Verma, Vijay Pal
Dwivedi, Jishnu
An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration
title An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration
title_full An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration
title_fullStr An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration
title_full_unstemmed An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration
title_short An 8 MeV Electron Beam Modified In:ZnO Thin Films for CO Gas Sensing towards Low Concentration
title_sort 8 mev electron beam modified in:zno thin films for co gas sensing towards low concentration
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8618427/
https://www.ncbi.nlm.nih.gov/pubmed/34835915
http://dx.doi.org/10.3390/nano11113151
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