Enhanced NO2 Sensing Performance of Graphene with Thermally Induced Defects

Authors
Lim, NamsooKim, HyeonghunPak, YusinByun, Young Tae
Issue Date
2021-05
Publisher
MDPI
Citation
MATERIALS, v.14, no.9
Abstract
This paper demonstrates the enhanced NO2 sensing performance of graphene with defects generated by rapid thermal annealing (RTA). A high temperature of RTA (300-700 degrees C) was applied to graphene under an argon atmosphere to form defects on sp(2) carbon lattices. The density of defects proportionally increased with increasing the RTA temperature. Raman scattering results confirmed significant changes in sp(2) bonding. After 700 degrees C RTA, I-D/I-G, I-2D/I-G, and FWHM (full width at half maximum)(G) values, which are used to indirectly investigate carbon-carbon bonds' chemical and physical properties, were markedly changed compared to the pristine graphene. Further evidence of the thermally-induced defects on graphene was found via electrical resistance measurements. The electrical resistance of the RTA-treated graphene linearly increased with increasing RTA temperature. Meanwhile, the NO2 response of graphene sensors increased from 0 to 500 degrees C and reached maximum (R = similar to 24%) at 500 degrees C. Then, the response rather decreased at 700 degrees C (R = similar to 14%). The results imply that rich defects formed at above a critical temperature (similar to 500 degrees C) may damage electrical paths of sp(2) chains and thus deteriorate NO2 response. Compared to the existing functionalization process, the RTA treatment is very facile and allows precise control of the NO2 sensing characteristics, contributing to manufacturing commercial low-cost, high-performance, integrated sensors.
Keywords
OXIDE GAS SENSORS; TEMPERATURE; OXIDE GAS SENSORS; TEMPERATURE; graphene; defects; rapid thermal annealing; nitrogen dioxide; gas sensor
ISSN
1996-1944
URI
https://pubs.kist.re.kr/handle/201004/117087
DOI
10.3390/ma14092347
Appears in Collections:
KIST Article > 2021
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