Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films

Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films

Toward the development of infrared (IR) detectors, nickel–manganite-based thin films were initially prepared from (Ni0.2Mn2.8–xCux)Cl2 (0.010 ≤ x ≤ 0.040) solutions using the liquid flow deposition (LFD) method. The influence of Cu on the negative temperature coefficient of resistance (NTCR) charact...

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Main Authors: Duc Thang Le, Jeong Ho Cho, Heongkyu Ju
Format: Article
Language:English
Published: Taylor & Francis Group 2021-07-01
Series:Journal of Asian Ceramic Societies
Subjects:
aging
hopping mechanism
negative temperature coefficient
nickel manganite
zinc
cubic spinel
Online Access:http://dx.doi.org/10.1080/21870764.2021.1920157
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spelling doaj-89b367efa46b441b95689b04ea45d0042021-10-04T13:57:03ZengTaylor & Francis GroupJournal of Asian Ceramic Societies2187-07642021-07-019383885010.1080/21870764.2021.19201571920157Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin filmsDuc Thang Le0Jeong Ho Cho1Heongkyu Ju2Gachon UniversityKorea Institute of Ceramic Engineering and TechnologyGachon UniversityToward the development of infrared (IR) detectors, nickel–manganite-based thin films were initially prepared from (Ni0.2Mn2.8–xCux)Cl2 (0.010 ≤ x ≤ 0.040) solutions using the liquid flow deposition (LFD) method. The influence of Cu on the negative temperature coefficient of resistance (NTCR) characteristic of the films annealed at 400°C was investigated. It was found that the incorporation of Cu can effectively enhance electrical conductivity; however, it degrades both the thermal sensitivity and stability of the nickel–manganite films. The investigation was extended by further modifying the composition with Zn. The results revealed that by co-doping Cu with a proper amount of Zn the temperature coefficient of resistance (TCR) could be tailored, while a relatively low resistivity (ρ) of the final products was retained. Specially, when 0.01 mol Zn was added to a precursor solution containing 0.025 mol Cu, the resulting specimen possessed a TCR = 2.82% K–1 and a ρ = 820 Ω (measured at RT). More importantly, compared to Zn-free films, the (Zn,Cu) co-doped compositions showed much improved electrical stability, with an aging coefficient (ΔR/R) as low as 4.6%, after aging at 150°C in air for 500 h. The results suggest that the (Zn,Cu) co–doped (Ni,Mn)3O4 thin films have a promising application in IR detectors.http://dx.doi.org/10.1080/21870764.2021.1920157aginghopping mechanismnegative temperature coefficientnickel manganitezinccubic spinel
collection DOAJ
language English
format Article
sources DOAJ
author Duc Thang Le
Jeong Ho Cho
Heongkyu Ju
spellingShingle Duc Thang Le
Jeong Ho Cho
Heongkyu Ju
Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films
Journal of Asian Ceramic Societies
aging
hopping mechanism
negative temperature coefficient
nickel manganite
zinc
cubic spinel
author_facet Duc Thang Le
Jeong Ho Cho
Heongkyu Ju
author_sort Duc Thang Le
title Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films
title_short Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films
title_full Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films
title_fullStr Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films
title_full_unstemmed Electrical properties and stability of low temperature annealed (Zn,Cu) co-doped (Ni,Mn)3O4 spinel thin films
title_sort electrical properties and stability of low temperature annealed (zn,cu) co-doped (ni,mn)3o4 spinel thin films
publisher Taylor & Francis Group
series Journal of Asian Ceramic Societies
issn 2187-0764
publishDate 2021-07-01
description Toward the development of infrared (IR) detectors, nickel–manganite-based thin films were initially prepared from (Ni0.2Mn2.8–xCux)Cl2 (0.010 ≤ x ≤ 0.040) solutions using the liquid flow deposition (LFD) method. The influence of Cu on the negative temperature coefficient of resistance (NTCR) characteristic of the films annealed at 400°C was investigated. It was found that the incorporation of Cu can effectively enhance electrical conductivity; however, it degrades both the thermal sensitivity and stability of the nickel–manganite films. The investigation was extended by further modifying the composition with Zn. The results revealed that by co-doping Cu with a proper amount of Zn the temperature coefficient of resistance (TCR) could be tailored, while a relatively low resistivity (ρ) of the final products was retained. Specially, when 0.01 mol Zn was added to a precursor solution containing 0.025 mol Cu, the resulting specimen possessed a TCR = 2.82% K–1 and a ρ = 820 Ω (measured at RT). More importantly, compared to Zn-free films, the (Zn,Cu) co-doped compositions showed much improved electrical stability, with an aging coefficient (ΔR/R) as low as 4.6%, after aging at 150°C in air for 500 h. The results suggest that the (Zn,Cu) co–doped (Ni,Mn)3O4 thin films have a promising application in IR detectors.
topic aging
hopping mechanism
negative temperature coefficient
nickel manganite
zinc
cubic spinel
url http://dx.doi.org/10.1080/21870764.2021.1920157
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AT jeonghocho electricalpropertiesandstabilityoflowtemperatureannealedzncucodopednimn3o4spinelthinfilms
AT heongkyuju electricalpropertiesandstabilityoflowtemperatureannealedzncucodopednimn3o4spinelthinfilms
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