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An Ultrasensitive and Ultraselective Hydrogen Sensor Based on Defect‐Dominated Electron Scattering in Pt Nanowire Arrays
Author(s) -
Cao Fan,
Zhao Pengfei,
Wang Zhao,
Zhang Xianghui,
Zheng He,
Wang Jianbo,
Zhou Di,
Hu Yongming,
Gu Haoshuang
Publication year - 2019
Publication title -
advanced materials interfaces
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.671
H-Index - 65
ISSN - 2196-7350
DOI - 10.1002/admi.201801304
Subject(s) - materials science , hydrogen , scattering , hydrogen sensor , nanowire , electron , ion , electron scattering , nanotechnology , analytical chemistry (journal) , optoelectronics , atomic physics , optics , chemistry , catalysis , palladium , biochemistry , physics , organic chemistry , chromatography , quantum mechanics
The detection of hydrogen gas has attracted extensive attention due to its wide applications. Here, ultrathin Pt nanowires (3.5 nm) with abundant defects are fabricated by focused ion beam (FIB) for hydrogen detection. Different from the surface‐dominated scattering in previous reports where the resistance of Pt decreases after hydrogenation, the Pt hydrogen sensor prepared by FIB is based on defect‐dominated electron scattering owing to the abundant defects, i.e., the resistance is dominated by defect scattering, while H atoms will diffuse along the defects and thus enhance the electron scattering and resistance. Thanks to the small volume of H atoms (easy to diffuse along defects), the sensor is very sensitive and selective to hydrogen and exhibits fast response–recovery properties. Moreover, the sensitivity can be improved after the response–recovery loops, which may be ascribed to the generation of extra defects (further accelerating H atom diffusion). After response in pure H 2 and recovery in air, the sensor has an ultralow limit of detection (for H 2 in air) of 10 ppb. The results present a hydrogen sensor with superior sensitivity and selectivity, which would not only facilitate the development of metal hydrogen sensors, but also provide a feasible strategy for hydrogen detection.

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