Engineered Artificial Nanochannels for Nitrite Ion Harmless Conversion

Yongchao Qian; Zhen Zhang; Xiang Yu Kong; Wei Tian; Liping Wen; Lei Jiang

doi:10.1021/acsami.8b09749

Engineered Artificial Nanochannels for Nitrite Ion Harmless Conversion

Yongchao Qian, Zhen Zhang, Xiang Yu Kong, Wei Tian, Liping Wen, Lei Jiang

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

20 引用（Scopus）

摘要

Inspired by the delicate functions of living organisms to transport or transform nitrite ions (NO₂ ^-), a bioinspired smart nanochannel that can realize harmless conversion of NO₂ ^- into N₂ is developed by immobilizing a NO₂ ^--responsive functional molecule, p-phenylenediamine, onto a single conical polyethylene terephthalate nanochannel. Subsequently, the aromatic primary amine groups could be triggered to transform into a phenyldiazonium molecule based on the acid-activated NO₂ ^--binding process. The nanochannel exhibits specific selectivity and highly ultratrace recognition of NO₂ ^-. Fascinatingly, the transformed phenyldiazonium molecules could be triggered to generate phenol groups and release N₂ by ultraviolet light activation, achieving NO₂ ^- harmless conversion. This system could provide inspiration to construct artificial nanofluidic devices for ion-sensing and nitrogen cycle fields.

源语言	英语
页（从-至）	30852-30859
页数	8
期刊	ACS Applied Materials and Interfaces
卷	10
期	36
DOI	https://doi.org/10.1021/acsami.8b09749
出版状态	已出版 - 12 9月 2018

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title = "Engineered Artificial Nanochannels for Nitrite Ion Harmless Conversion",

abstract = "Inspired by the delicate functions of living organisms to transport or transform nitrite ions (NO2 -), a bioinspired smart nanochannel that can realize harmless conversion of NO2 - into N2 is developed by immobilizing a NO2 --responsive functional molecule, p-phenylenediamine, onto a single conical polyethylene terephthalate nanochannel. Subsequently, the aromatic primary amine groups could be triggered to transform into a phenyldiazonium molecule based on the acid-activated NO2 --binding process. The nanochannel exhibits specific selectivity and highly ultratrace recognition of NO2 -. Fascinatingly, the transformed phenyldiazonium molecules could be triggered to generate phenol groups and release N2 by ultraviolet light activation, achieving NO2 - harmless conversion. This system could provide inspiration to construct artificial nanofluidic devices for ion-sensing and nitrogen cycle fields.",

keywords = "acid and light activation, bioinspired, harmless conversion, nanochannel, nitrite ion",

author = "Yongchao Qian and Zhen Zhang and Kong, {Xiang Yu} and Wei Tian and Liping Wen and Lei Jiang",

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T1 - Engineered Artificial Nanochannels for Nitrite Ion Harmless Conversion

AU - Qian, Yongchao

AU - Zhang, Zhen

AU - Kong, Xiang Yu

AU - Tian, Wei

AU - Wen, Liping

AU - Jiang, Lei

PY - 2018/9/12

Y1 - 2018/9/12

N2 - Inspired by the delicate functions of living organisms to transport or transform nitrite ions (NO2 -), a bioinspired smart nanochannel that can realize harmless conversion of NO2 - into N2 is developed by immobilizing a NO2 --responsive functional molecule, p-phenylenediamine, onto a single conical polyethylene terephthalate nanochannel. Subsequently, the aromatic primary amine groups could be triggered to transform into a phenyldiazonium molecule based on the acid-activated NO2 --binding process. The nanochannel exhibits specific selectivity and highly ultratrace recognition of NO2 -. Fascinatingly, the transformed phenyldiazonium molecules could be triggered to generate phenol groups and release N2 by ultraviolet light activation, achieving NO2 - harmless conversion. This system could provide inspiration to construct artificial nanofluidic devices for ion-sensing and nitrogen cycle fields.

AB - Inspired by the delicate functions of living organisms to transport or transform nitrite ions (NO2 -), a bioinspired smart nanochannel that can realize harmless conversion of NO2 - into N2 is developed by immobilizing a NO2 --responsive functional molecule, p-phenylenediamine, onto a single conical polyethylene terephthalate nanochannel. Subsequently, the aromatic primary amine groups could be triggered to transform into a phenyldiazonium molecule based on the acid-activated NO2 --binding process. The nanochannel exhibits specific selectivity and highly ultratrace recognition of NO2 -. Fascinatingly, the transformed phenyldiazonium molecules could be triggered to generate phenol groups and release N2 by ultraviolet light activation, achieving NO2 - harmless conversion. This system could provide inspiration to construct artificial nanofluidic devices for ion-sensing and nitrogen cycle fields.

KW - acid and light activation

KW - bioinspired

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Engineered Artificial Nanochannels for Nitrite Ion Harmless Conversion

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