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Effect of compositional modification of (Ni<sub>x</sub>Co<sub>y</sub>Mn<sub>3-x-y</sub>) O<sub>4</sub> on electrical properties for the application to temperature sensorEffect of compositional modification of (NixCoyMn3-x-y) O4 on electrical properties for the application to temperature sensor

Other Titles
Effect of compositional modification of (NixCoyMn3-x-y) O4 on electrical properties for the application to temperature sensor
Authors
So, YoungheeLee, Seung HwanMhin, Sungwook
Issue Date
Nov-2024
Publisher
한국세라믹학회
Keywords
Negative temperature coefficient; Sensor; Oxides; V2O5; Spinel oxides
Citation
한국세라믹학회지, v.61, no.6, pp 1247 - 1254
Pages
8
Indexed
SCIE
SCOPUS
KCI
Journal Title
한국세라믹학회지
Volume
61
Number
6
Start Page
1247
End Page
1254
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/202139
DOI
10.1007/s43207-024-00436-3
ISSN
1229-7801
2234-0491
Abstract
(NixCoyMn3-x-y)O-4 (NCM) spinel oxides have been widely utilized for industrial applications including the temperature sensor in the battery management system of electric vehicles. Accordingly, various engineering strategies such as the substitution of different elements, and control of heat treatment have been introduced to modify NCM to satisfy the specific properties of the temperature sensor. Herein, we report the compositional modification of the NCM influence on electrical properties with temperature for the application of temperature sensors. Our results demonstrate that the crystal structure of the NCM is determined by the Mn/Co ratio, which is related to electrical resistance and sensitivity (B value). Also, we investigate the effect of vanadium pentoxide (V2O5) on the sintering behavior of the NCM, which results in lower sintering temperatures. Representative NCM pellet with the chemical composition of Ni0.31Co0.93Mn1.76O4 shows negative temperature coefficient (NTC) properties with electrical resistance and B value as 25,539 Omega and 3921 K, respectively, which is suitable for industrial-level temperature sensor. This study provides a deeper understanding of how the manipulation of transition metal ratios can tailor the properties of spinel oxides for temperature sensing applications.
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