Excellent porous environmental nanocatalyst: tactically integrating size-confined highly active MnOx in nanospaces of mesopores enables the promotive catalytic degradation efficiency of organic contaminants

Yang, Fu; Gao, Shuying; Ding, Yun; Tang, Sheng; Chen, Haifeng; Chen, Jianjun; Liu, Jianfeng; Yang, Zhen; Hu, Xiaocai; Yuan, Aihua

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Royal Society of Chemistry, New Journal of Chemistry

DOI: 10.1039/c9nj05092b

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Excellent porous environmental nanocatalyst: tactically integrating size-confined highly active MnOx in nanospaces of mesopores enables the promotive catalytic degradation efficiency of organic contaminants

Journal article published in 2019 by Fu Yang

, Shuying Gao, Yun Ding, Sheng Tang

, Haifeng Chen, Jianjun Chen

, Jianfeng Liu, Zhen Yang, Xiaocai Hu, Aihua Yuan

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Abstract

A nanoporous molecular sieve catalyst containing size-confined MnO_x species, which affords excellent environmental catalytic efficiency, was synthesized using a micelle-assisted in situ embedding strategy.

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Excellent porous environmental nanocatalyst: tactically integrating size-confined highly active MnOx in nanospaces of mesopores enables the promotive catalytic degradation efficiency of organic contaminants

Abstract