\begin{document}$ {\mathrm{A}}{\mathrm{u}} $\end{document} loaded Tin Oxide nano sensor is abbreviated as \begin{document}$ {\mathrm{T}}{\mathrm{I}}{\mathrm{S}}\text{-}{\mathrm{Au}}\text{-}{{\mathrm{S}}{\mathrm{n}}{\mathrm{O}}}_{2} $\end{document} Sensor . In order to illustrate the sensing mechanism, we analyze the elemental compositions, and the results show that under the condition of the high defective oxygen content, the in-situ heating method of templated preparation of \begin{document}$ {\mathrm{A}}{\mathrm{u}}\text{-}{{\mathrm{S}}{\mathrm{n}}{\mathrm{O}}}_{2} $\end{document} nano-sensor containing arrays of polystyrene spheres becomes an important reason for the ultra-sensitivity to hydrogen, high specificity, and the suppression of the important interfering gas, ethanol. Moreover, the in situ preparation method can be flexibly and scalably used to prepare high-performance miniaturized gas sensors with a variety of hollow-sphere nanostructured metal oxides, in order to obtain excellent sensitivity and adjustable selectivity."> Preparation of ultra-sensitive and highly specific miniature hydrogen sensors by <i>in situ</i> synthesis methods - 必威体育下载

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Citation:

    Ge Yi-Xuan, Yu Ting-Ting, Liang Wen-Jie
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    • Abstract views:1397
    • PDF Downloads:39
    • Cited By:0
    Publishing process
    • Received Date:03 August 2023
    • Accepted Date:17 October 2023
    • Available Online:20 October 2023
    • Published Online:20 January 2024

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