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W4324135812 startingPage "104797" @default.
W4324135812 abstract "Currently, wide-bandgap metal oxide nanomaterials with attractive chemical and physical properties are intensively used for the fabrication of chemiresistive gas sensors and other catalytic devices. However, the low electrical conductance of sensors based on wide bandgap metal oxides is an issue that limits their application in small-scale systems to read out electrical signals and the manufacturing of portable sensing devices. In this regard, combining oxide nanostructures with other elements could be an effective strategy for enhancing their electrical and sensing performances. In this work, we attempted to improve the conductivity and sensitivity of porous tin dioxide to certain gases. Herein, we report a cost-effective and simple method for synthesizing antimony-containing mesoporous tin dioxide (Sb-SnO2) under ambient pressure and temperature. The X-ray diffraction, N2 sorption, transmission electron microscopy, energy-dispersive X-ray, and photoelectron spectroscopy analyses indicate that the prepared Sb-SnO2 material is a nanocrystalline powder with a large surface area. Meanwhile, the successful incorporation of Sb into the SnO2 framework results in increased electrical conductance by at least one order of magnitude or more compared to that of pure SnO2 and other doped SnO2 materials, respectively. The structure shows a very effective sensing response to volatile organic compounds and nitrogen dioxide. Hence, we developed an efficient method for synthesizing highly conductive oxide nanomaterials for use in chemical gas sensing devices." @default.
W4324135812 created "2023-03-15" @default.
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W4324135812 creator A5052446505 @default.
W4324135812 creator A5062442171 @default.
W4324135812 date "2023-06-01" @default.
W4324135812 modified "2023-10-13" @default.
W4324135812 title "Efficient one-pot synthesis of antimony-containing mesoporous tin dioxide nanostructures for gas-sensing applications" @default.
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W4324135812 cites W1821379865 @default.
W4324135812 cites W1841684360 @default.
W4324135812 cites W1966894293 @default.
W4324135812 cites W1971695361 @default.
W4324135812 cites W1983102191 @default.
W4324135812 cites W1991664369 @default.
W4324135812 cites W1993664390 @default.
W4324135812 cites W1994865509 @default.
W4324135812 cites W1996138215 @default.
W4324135812 cites W1997822842 @default.
W4324135812 cites W1999245927 @default.
W4324135812 cites W2003564643 @default.
W4324135812 cites W2004977428 @default.
W4324135812 cites W2010691608 @default.
W4324135812 cites W2021941166 @default.
W4324135812 cites W2024289570 @default.
W4324135812 cites W2029696267 @default.
W4324135812 cites W2030419782 @default.
W4324135812 cites W2031373088 @default.
W4324135812 cites W2035025318 @default.
W4324135812 cites W2035398453 @default.
W4324135812 cites W2043114187 @default.
W4324135812 cites W2051253111 @default.
W4324135812 cites W2055131350 @default.
W4324135812 cites W2064158921 @default.
W4324135812 cites W2066459108 @default.
W4324135812 cites W2076108317 @default.
W4324135812 cites W2091226750 @default.
W4324135812 cites W2093065511 @default.
W4324135812 cites W2105908153 @default.
W4324135812 cites W2107102543 @default.
W4324135812 cites W2127133569 @default.
W4324135812 cites W2132964645 @default.
W4324135812 cites W2139096831 @default.
W4324135812 cites W2143027172 @default.
W4324135812 cites W2157071682 @default.
W4324135812 cites W2165576539 @default.
W4324135812 cites W2169373808 @default.
W4324135812 cites W2238728418 @default.
W4324135812 cites W2254218294 @default.
W4324135812 cites W2288288308 @default.
W4324135812 cites W2295392077 @default.
W4324135812 cites W2298318377 @default.
W4324135812 cites W2309503836 @default.
W4324135812 cites W2340552242 @default.
W4324135812 cites W2364595641 @default.
W4324135812 cites W2612578528 @default.
W4324135812 cites W2758233343 @default.
W4324135812 cites W2809339710 @default.
W4324135812 cites W2898439928 @default.
W4324135812 cites W2990335827 @default.
W4324135812 cites W2999494005 @default.
W4324135812 cites W3044019369 @default.
W4324135812 cites W3090047119 @default.
W4324135812 cites W3095088300 @default.
W4324135812 cites W3112203939 @default.
W4324135812 cites W3142230355 @default.
W4324135812 cites W3154146819 @default.
W4324135812 cites W3155993339 @default.
W4324135812 cites W3156531581 @default.
W4324135812 cites W3167289418 @default.
W4324135812 cites W3171095003 @default.
W4324135812 cites W3173363548 @default.
W4324135812 cites W3176454824 @default.
W4324135812 cites W3194437466 @default.
W4324135812 cites W3198863092 @default.
W4324135812 cites W3203534312 @default.
W4324135812 cites W3208765305 @default.
W4324135812 cites W4205405347 @default.
W4324135812 cites W4206808447 @default.
W4324135812 cites W4210464820 @default.
W4324135812 cites W4210506620 @default.
W4324135812 cites W4223424322 @default.
W4324135812 cites W4224117214 @default.
W4324135812 cites W4318014983 @default.
W4324135812 cites W843007777 @default.
W4324135812 cites W2099044450 @default.
W4324135812 doi "https://doi.org/10.1016/j.arabjc.2023.104797" @default.
W4324135812 hasPublicationYear "2023" @default.
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