Highly sensitive and ultralow detection limit of room-temperature NO2 sensors using in-situ growth of PPy on mesoporous NiO nanosheets
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Authors
Zhang, Jian (Andrew)
Wu, Congyi
Li, Tao
Xie, Changsheng
Zeng, Dawen
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Elsevier
Abstract
Recently, inorganic-organic nanocomposites-based gas sensors have attracted great attention because they
usually exhibit enhanced sensing properties compared to single component due to the formation of heterojunction
and the existing organic functional groups. Here, to improve the sensing properties of NiO and further
detail the sensing mechanism of inorganic-organic nanocomposites-based sensors, polypyrrole (PPy)-functionalized
NiO nanosheets were prepared for room-temperature NO2 sensing. The gas-sensing studies revealed that
the response of PPy-NiO nanocomposites (45) to 60 ppm NO2 at room temperature is 30 times larger than that of
the bare NiO (1.5). According to the fitting curves of the relationship between the sensitivity and NO2 concentration,
the detection limit was calculated to be 49 ppb, indicating its potential application. On the basis of the
energy band diagram, the significantly enhanced sensitivity of nanocomposites was attributed to the increased
number of nickel vacancies induced by the effective charge transferring from PPy to NiO. Moreover, based on the
different sensitivity of nanocomposites with different molar ratios, the relative importance of heterojunction
resistance and bulk resistance was also clarified by constructing equivalent circuit model. We hope this work
could guide us to explore more inorganic-organic nanocomposites-based sensors with the even higher sensing
performances.
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Organic Electronics
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2099-12-31
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