CO2 Conversion into N-Doped Carbon Nanomesh Sheets

Chunxiao Xu; Pengwan Chen; Kaiyuan Liu; Xin Gao; Liyong Du

doi:10.1021/acsanm.9b00377

CO₂ Conversion into N-Doped Carbon Nanomesh Sheets

Chunxiao Xu, Pengwan Chen^*, Kaiyuan Liu, Xin Gao, Liyong Du

^*此作品的通讯作者

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

12 引用（Scopus）

摘要

A new type of ultrathin N-doped carbon nanomesh (NCM) sheet derived from CO₂ is prepared via a self-sustained sol-pyrolysis approach, which offers great promise for conversion of emitted CO₂ to value-added chemicals in large scale. The newly prepared NCM products, having well-formed two- to four-atom-thick sheet structure, good nitrogen doping level (2.88 at%), high specific surface area (888 m² g^-1), and large hierarchical pores volume (2.05 cm³ g^-1), possess superior half-wave potential (0.81 V vs RHE), kinetic limiting current (4.0 mA cm^-2), tolerance to methanol crossover effect, and stability against O₂ reduction reaction in alkaline medium in fuel cells. More importantly, this general sol-pyrolysis approach greatly enhances reaction controllability and product selectivity for the thermochemical reduction of CO₂, thus increasing the application potential of this methodology in both research laboratories and industries.

源语言	英语
页（从-至）	2991-2998
页数	8
期刊	ACS Applied Nano Materials
卷	2
期	5
DOI	https://doi.org/10.1021/acsanm.9b00377
出版状态	已出版 - 24 5月 2019

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10.1021/acsanm.9b00377

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@article{5e13e0cd15104344b2f75d2daf235de5,

title = "CO2 Conversion into N-Doped Carbon Nanomesh Sheets",

abstract = "A new type of ultrathin N-doped carbon nanomesh (NCM) sheet derived from CO2 is prepared via a self-sustained sol-pyrolysis approach, which offers great promise for conversion of emitted CO2 to value-added chemicals in large scale. The newly prepared NCM products, having well-formed two- to four-atom-thick sheet structure, good nitrogen doping level (2.88 at%), high specific surface area (888 m2 g-1), and large hierarchical pores volume (2.05 cm3 g-1), possess superior half-wave potential (0.81 V vs RHE), kinetic limiting current (4.0 mA cm-2), tolerance to methanol crossover effect, and stability against O2 reduction reaction in alkaline medium in fuel cells. More importantly, this general sol-pyrolysis approach greatly enhances reaction controllability and product selectivity for the thermochemical reduction of CO2, thus increasing the application potential of this methodology in both research laboratories and industries.",

keywords = "CO conversion, carbon nanomesh, nitrogen doping, oxygen reduction reaction, sol-pyrolysis",

author = "Chunxiao Xu and Pengwan Chen and Kaiyuan Liu and Xin Gao and Liyong Du",

note = "Publisher Copyright: {\textcopyright} 2019 American Chemical Society.",

year = "2019",

month = may,

day = "24",

doi = "10.1021/acsanm.9b00377",

language = "English",

volume = "2",

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journal = "ACS Applied Nano Materials",

issn = "2574-0970",

publisher = "American Chemical Society",

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TY - JOUR

T1 - CO2 Conversion into N-Doped Carbon Nanomesh Sheets

AU - Xu, Chunxiao

AU - Chen, Pengwan

AU - Liu, Kaiyuan

AU - Gao, Xin

AU - Du, Liyong

PY - 2019/5/24

Y1 - 2019/5/24

N2 - A new type of ultrathin N-doped carbon nanomesh (NCM) sheet derived from CO2 is prepared via a self-sustained sol-pyrolysis approach, which offers great promise for conversion of emitted CO2 to value-added chemicals in large scale. The newly prepared NCM products, having well-formed two- to four-atom-thick sheet structure, good nitrogen doping level (2.88 at%), high specific surface area (888 m2 g-1), and large hierarchical pores volume (2.05 cm3 g-1), possess superior half-wave potential (0.81 V vs RHE), kinetic limiting current (4.0 mA cm-2), tolerance to methanol crossover effect, and stability against O2 reduction reaction in alkaline medium in fuel cells. More importantly, this general sol-pyrolysis approach greatly enhances reaction controllability and product selectivity for the thermochemical reduction of CO2, thus increasing the application potential of this methodology in both research laboratories and industries.

AB - A new type of ultrathin N-doped carbon nanomesh (NCM) sheet derived from CO2 is prepared via a self-sustained sol-pyrolysis approach, which offers great promise for conversion of emitted CO2 to value-added chemicals in large scale. The newly prepared NCM products, having well-formed two- to four-atom-thick sheet structure, good nitrogen doping level (2.88 at%), high specific surface area (888 m2 g-1), and large hierarchical pores volume (2.05 cm3 g-1), possess superior half-wave potential (0.81 V vs RHE), kinetic limiting current (4.0 mA cm-2), tolerance to methanol crossover effect, and stability against O2 reduction reaction in alkaline medium in fuel cells. More importantly, this general sol-pyrolysis approach greatly enhances reaction controllability and product selectivity for the thermochemical reduction of CO2, thus increasing the application potential of this methodology in both research laboratories and industries.

KW - CO conversion

KW - carbon nanomesh

KW - nitrogen doping

KW - oxygen reduction reaction

KW - sol-pyrolysis

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U2 - 10.1021/acsanm.9b00377

DO - 10.1021/acsanm.9b00377

M3 - Article

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EP - 2998

JO - ACS Applied Nano Materials

JF - ACS Applied Nano Materials

IS - 5

ER -

CO2 Conversion into N-Doped Carbon Nanomesh Sheets

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CO₂ Conversion into N-Doped Carbon Nanomesh Sheets