공학
한국표면공학회지 (47권6호 297-302)
NO2 gas sensing properties of UV activated ZnS nanowires at room temperature
상온에서 UV 활성화된 ZnS 나노와이어의 NO2 가스 검출 특성
강우승;
Kang, Wooseung;
인하공업전문대학 금속재료과;
Department of Metallurgical & Materials Engineering, Inha Technical College;
DOI : 10.5695/JKISE.2014.47.6.297
Abstract
ZnS nanowires were synthesized in order to investigate $NO_2$ gas sensing properties. They were grown on the sapphire substrate using ZnS powders. SEM (scanning electron microscopy) showed the diameter and length of the ZnS nanowires were approximately in the range of 50 - 100 nm and a few $10s;{mu}m$, respectively. They were also found to be composed of Wurtzite- structured single crystals from TEM (transmission electron microscopy) analysis. $NO_2$ gas sensing performance of the ZnS nanowire was measured with electrical resistance changes caused by $NO_2$ gas with a concentration of 1-5ppm. The sensor was UV treated with an intensity of $1.2mW/cm^2$ to facilitate charge carrier transfer. The responses of the ZnS nanowires to the $NO_2$ gas at room temperature, treated with UV of two different wavelengths of 365 nm and 254 nm, are measured to be 124.53 - 206.87 % and 233.97 - 554.83%, respectively. In the current work, the effect of UV treatment on the gas sensing performance of the ZnS nanowires was studied. And the underlying mechanism for the electrical resistance changes of the ZnS nanowires by $NO_2$ gas was also discussed.
Keywords
ZnS nanowires;gas sensor;$NO_2$;UV;room temperature;