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Thermally stable proton conductivity from nanodiamond oxide
Chemical Communications ( IF 4.3 ) Pub Date : 2023-06-09 , DOI: 10.1039/d3cc02016a Lutfia Isna Ardhayanti 1, 2 , Md Saidul Islam 1, 3 , Masahiro Fukuda 1 , Xinyao Liu 1 , Zhongyue Zhang 1, 4 , Yoshihiro Sekine 1, 5 , Shinya Hayami 1, 3, 6
Chemical Communications ( IF 4.3 ) Pub Date : 2023-06-09 , DOI: 10.1039/d3cc02016a Lutfia Isna Ardhayanti 1, 2 , Md Saidul Islam 1, 3 , Masahiro Fukuda 1 , Xinyao Liu 1 , Zhongyue Zhang 1, 4 , Yoshihiro Sekine 1, 5 , Shinya Hayami 1, 3, 6
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Herein, we report nanodiamond oxide (NDOx), obtained from modified Hummers’ oxidation of nanodiamond (ND), showing excellent proton conductivity and thermal stability. NDOx possesses hydrophilicity resulting in higher water adsorption and the retention of functional groups at elevated temperatures can be attributed to the high proton conductivity and thermal stability, respectively.
中文翻译:
纳米氧化金刚石的热稳定质子传导性
在此,我们报道了纳米金刚石氧化物(NDOx),它是通过纳米金刚石(ND)的改良Hummers氧化法获得的,具有优异的质子传导性和热稳定性。NDOx 具有亲水性,导致较高的水吸附性,并且在高温下保留官能团可分别归因于高质子传导性和热稳定性。
更新日期:2023-06-09
中文翻译:
纳米氧化金刚石的热稳定质子传导性
在此,我们报道了纳米金刚石氧化物(NDOx),它是通过纳米金刚石(ND)的改良Hummers氧化法获得的,具有优异的质子传导性和热稳定性。NDOx 具有亲水性,导致较高的水吸附性,并且在高温下保留官能团可分别归因于高质子传导性和热稳定性。
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