NO2 Gas Sensing Properties of Ag-Functionalized Porous ZnO Sheets

NO2 Gas Sensing Properties of Ag-Functionalized Porous ZnO Sheets

Herein, we report a simple and scalable synthesis route to prepare Ag-functionalized porous ZnO sheets and their enhanced NO2 gas sensing properties. Porous ZnO sheets functionalized with well-dispersed submicron Ag particles were prepared by using a hydrothermal method-based one-pot synthesis route...

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Veröffentlicht in:Adsorption science & technology 2023-01, Vol.2023
Hauptverfasser: Kim, Min Young, Hwang, Jeong Yun, Mirzaei, Ali, Choi, Sun-Woo, Kim, Sang-il, Kim, Hyun-Sik, Kim, Sun-Jae, Roh, Jong Wook, Choi, Myung Sik, Lee, Kyu Hyoung, Lee, Seung Yong, Jin, Changhyun
Format: Artikel
Sprache:eng
Schlagworte:
Gas sensors
Heterojunctions
Nitrogen dioxide
Recovery time
Relative humidity
Synthesis
Zinc oxide
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Zusammenfassung:Herein, we report a simple and scalable synthesis route to prepare Ag-functionalized porous ZnO sheets and their enhanced NO2 gas sensing properties. Porous ZnO sheets functionalized with well-dispersed submicron Ag particles were prepared by using a hydrothermal method-based one-pot synthesis route from Zn and Ag precursors. NO2 gas sensing performance (response, selectivity, response time, and recovery time) was optimized at 200°C in the gas sensor fabricated with 3 at% Ag-functionalized porous ZnO sheets. We demonstrated a response (Rg/Ra) of 17.18 to 10 ppm NO2 gas and also obtained a high response of 14.05 even at 60% relative humidity due to the synergetic effect of improved NO2 gas adsorption in the presence of Ag particles and increased resistance by the formation of Schottky barrier at Ag-ZnO heterojunctions.
ISSN:0263-6174
2048-4038
DOI:10.1155/2023/9021169