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W2897843905 endingPage "216" @default.
W2897843905 startingPage "167" @default.
W2897843905 abstract "Oxide semiconductor chemiresistors have been widely investigated and used to detect various harmful, toxic, and explosive gases because of their unique advantages such as excellent sensitivity, cost effectiveness, simple sensing mechanism, and facile integration. Gas sensing characteristics such as gas response, selectivity, stability, and response/recovery speed are closely dependent upon transducer designs, sensing materials, and the deposition of sensing materials on transducers. This chapter will cover the development of sensors from bulky porous pellets to thick films on MEMS Based transducers. The chapter also reviews current and new strategies for synthesizing oxide nanostructures for high performance gas sensors will be investigated. The gas sensing reaction in oxide semiconductors consists of the diffusion of the analyte gas from the ambient atmosphere toward the surface of the oxide semiconductor and the charge-transferring interaction between the analyte gas and the oxide surface. The former highlights the importance of gas transfer via micro-, meso-, and nano-porous sensing films, while the latter is dominated by the gas adsorption, surface reaction, and change in charge carrier concentration near the surface of the oxide semiconductor. All the above parameters that determine the gas sensing characteristics are closely dependent upon the size, crystallinity, composition, porosity, and morphology of oxide nanostructures including nanorods (1-D), nanowires (1-D), nanosheets (2-D), nanocubes (3-D), and their assembled hierarchical, hollow, and yolk-shell structures." @default.
W2897843905 created "2018-10-26" @default.
W2897843905 creator A5002747236 @default.
W2897843905 date "2019-01-01" @default.
W2897843905 modified "2023-10-17" @default.
W2897843905 title "Technological realization of semiconducting metal oxide–based gas sensors" @default.
W2897843905 cites W1504017627 @default.
W2897843905 cites W1519306917 @default.
W2897843905 cites W1652758103 @default.
W2897843905 cites W1685916560 @default.
W2897843905 cites W1783713463 @default.
W2897843905 cites W1804142488 @default.
W2897843905 cites W1889676279 @default.
W2897843905 cites W1895567752 @default.
W2897843905 cites W1909358810 @default.
W2897843905 cites W1917021033 @default.
W2897843905 cites W1963802549 @default.
W2897843905 cites W1965171547 @default.
W2897843905 cites W1966444899 @default.
W2897843905 cites W1967051380 @default.
W2897843905 cites W1970353116 @default.
W2897843905 cites W1972114719 @default.
W2897843905 cites W1972466938 @default.
W2897843905 cites W1974523041 @default.
W2897843905 cites W1974720261 @default.
W2897843905 cites W1975906074 @default.
W2897843905 cites W1976561802 @default.
W2897843905 cites W1977129829 @default.
W2897843905 cites W1978085020 @default.
W2897843905 cites W1978218694 @default.
W2897843905 cites W1978527885 @default.
W2897843905 cites W1978580609 @default.
W2897843905 cites W1979430075 @default.
W2897843905 cites W1980784068 @default.
W2897843905 cites W198094807 @default.
W2897843905 cites W1981009111 @default.
W2897843905 cites W1981296895 @default.
W2897843905 cites W1982318875 @default.
W2897843905 cites W1982998465 @default.
W2897843905 cites W1984049987 @default.
W2897843905 cites W1985768241 @default.
W2897843905 cites W1985785550 @default.
W2897843905 cites W1986600210 @default.
W2897843905 cites W1986856382 @default.
W2897843905 cites W1987266183 @default.
W2897843905 cites W1988783908 @default.
W2897843905 cites W1988957960 @default.
W2897843905 cites W1990309856 @default.
W2897843905 cites W1990599339 @default.
W2897843905 cites W1990648753 @default.
W2897843905 cites W1992261751 @default.
W2897843905 cites W1992476348 @default.
W2897843905 cites W1993012961 @default.
W2897843905 cites W1993747913 @default.
W2897843905 cites W1996068974 @default.
W2897843905 cites W1999280211 @default.
W2897843905 cites W2001448353 @default.
W2897843905 cites W2002497559 @default.
W2897843905 cites W2004692254 @default.
W2897843905 cites W2004989171 @default.
W2897843905 cites W2005832032 @default.
W2897843905 cites W2005867837 @default.
W2897843905 cites W2006880698 @default.
W2897843905 cites W2007029639 @default.
W2897843905 cites W2007171447 @default.
W2897843905 cites W2008293175 @default.
W2897843905 cites W2010370279 @default.
W2897843905 cites W2010620537 @default.
W2897843905 cites W2010915601 @default.
W2897843905 cites W2012187249 @default.
W2897843905 cites W2012679646 @default.
W2897843905 cites W2015074692 @default.
W2897843905 cites W2017168364 @default.
W2897843905 cites W2017610562 @default.
W2897843905 cites W2019506100 @default.
W2897843905 cites W2019583835 @default.
W2897843905 cites W2020256670 @default.
W2897843905 cites W2020310727 @default.
W2897843905 cites W2021683892 @default.
W2897843905 cites W2021875030 @default.
W2897843905 cites W2022215121 @default.
W2897843905 cites W2025814513 @default.
W2897843905 cites W2025933302 @default.
W2897843905 cites W2025961251 @default.
W2897843905 cites W2026393782 @default.
W2897843905 cites W2027631847 @default.
W2897843905 cites W2029851331 @default.
W2897843905 cites W2030419782 @default.
W2897843905 cites W2032437417 @default.
W2897843905 cites W2032448868 @default.
W2897843905 cites W2032473270 @default.
W2897843905 cites W2034406197 @default.
W2897843905 cites W2034433960 @default.
W2897843905 cites W2034772131 @default.
W2897843905 cites W2037104735 @default.
W2897843905 cites W2038342128 @default.
W2897843905 cites W2040038451 @default.
W2897843905 cites W2044023755 @default.