Holey engineered 2D ZnO-nanosheets architecture for supersensitive ppm level H2 gas detection at room temperature

材料科学 退火(玻璃) X射线光电子能谱 纳米技术 工作温度 比表面积 多孔性 光电子学 化学工程 复合材料 催化作用 化学 电气工程 生物化学 工程类
作者
Manjeet Kumar,Vishwa Bhatt,Joondong Kim,A. C. Abhyankar,Hak-Jun Chung,K. Singh,Young Bin Cho,Young Jun Yun,Kwang Soo Lim,Ju‐Hyung Yun
出处
期刊:Sensors and Actuators B-chemical [Elsevier BV]
卷期号:326: 128839-128839 被引量:67
标识
DOI:10.1016/j.snb.2020.128839
摘要

Conquering the issue of room temperature H2 detection at ppm/ppb level and their fundamental sensing mechanism are vitally needed for the development of highly sensitive/selective sensing devices. Herein, a strategy is proposed to synthesize 2D ZnO holey nanosheets by engineering the tunable pore/hole size with controlled oxygen vacancies using the annealing process for H2 detection at room temperature. 2D ZnO holey nanosheets annealed at 400 °C shows a highly porous network owing to its high surface area, more channels for gas diffusion, and mass transport that exhibits improved gas-sensing performance. [email protected] sensor exhibits maximum response of ∼115 (20 times more than [email protected] sample) towards 100 ppm of H2 at room temperature. The sensor response (recovery) times of the order ∼9(6) secs recorded to be fastest for [email protected] sensor as compared to [email protected] (∼19(13) secs) and [email protected] (∼27(20) secs) sensor respectively. Further, the [email protected] sensor also displays superior repeatability and stability of ∼97−99% after 45 days. The involved gas sensing mechanism has also been verified by carrying out XPS measurements before and after H2 exposure at room temperature that helps to complement the theoretical justification about room temperature metallization effect. Thus, 2D ZnO holey nanosheets turn out to be a pivotal strategy to improve the gas sensing performance due to the synergetic effect of highly porous network and large specific surface areas of 2D nanosheets. The present approach proves to be one of the best methodologies to alleviate the restacking issue of the 2D nanosheets by opening up the inaccessible surfaces.
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