Graphene with Atomic-Level In-Plane Decoration of h-BN Domains for Efficient Photocatalysis

Mengzhu Li; Yiou Wang; Pei Tang; Nanhong Xie; Yunxuan Zhao; Xi Liu; Gang Hu; Jinglin Xie; Yufei Zhao; Junwang Tang; Tierui Zhang; Ding Ma

doi:10.1021/acs.chemmater.6b04622

Graphene with Atomic-Level In-Plane Decoration of h-BN Domains for Efficient Photocatalysis

Mengzhu Li, Yiou Wang, Pei Tang, Nanhong Xie, Yunxuan Zhao, Xi Liu, Gang Hu, Jinglin Xie, Yufei Zhao^*, Junwang Tang, Tierui Zhang, Ding Ma

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

62 引用（Scopus）

摘要

Band gap opening and engineering make up one of the primary goals of developing novel materials for photocatalytic hydrogen generation. We report here a facile synthesis of graphene decorated with in-plane boron nitride domains via control of both the doping sequence of heteroatoms and the oxygen content of the graphene precursor, showing significant differences in the doping pattern compared with B and/or N singly doped or co-doped graphene. We uncover that the formation of BN domains in graphene is critical for engineering the band gap and delivering an improved activity for photocatalytic hydrogen generation in the absence of any photosensitizer. This work paves the way for the rational design and construction of graphene-based photocatalysts for efficient photocatalysis.

源语言	英语
页（从-至）	2769-2776
页数	8
期刊	Chemistry of Materials
卷	29
期	7
DOI	https://doi.org/10.1021/acs.chemmater.6b04622
出版状态	已出版 - 11 4月 2017
已对外发布	是

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abstract = "Band gap opening and engineering make up one of the primary goals of developing novel materials for photocatalytic hydrogen generation. We report here a facile synthesis of graphene decorated with in-plane boron nitride domains via control of both the doping sequence of heteroatoms and the oxygen content of the graphene precursor, showing significant differences in the doping pattern compared with B and/or N singly doped or co-doped graphene. We uncover that the formation of BN domains in graphene is critical for engineering the band gap and delivering an improved activity for photocatalytic hydrogen generation in the absence of any photosensitizer. This work paves the way for the rational design and construction of graphene-based photocatalysts for efficient photocatalysis.",

author = "Mengzhu Li and Yiou Wang and Pei Tang and Nanhong Xie and Yunxuan Zhao and Xi Liu and Gang Hu and Jinglin Xie and Yufei Zhao and Junwang Tang and Tierui Zhang and Ding Ma",

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AU - Li, Mengzhu

AU - Wang, Yiou

AU - Tang, Pei

AU - Xie, Nanhong

AU - Zhao, Yunxuan

AU - Liu, Xi

AU - Hu, Gang

AU - Xie, Jinglin

AU - Zhao, Yufei

AU - Tang, Junwang

AU - Zhang, Tierui

AU - Ma, Ding

PY - 2017/4/11

Y1 - 2017/4/11

N2 - Band gap opening and engineering make up one of the primary goals of developing novel materials for photocatalytic hydrogen generation. We report here a facile synthesis of graphene decorated with in-plane boron nitride domains via control of both the doping sequence of heteroatoms and the oxygen content of the graphene precursor, showing significant differences in the doping pattern compared with B and/or N singly doped or co-doped graphene. We uncover that the formation of BN domains in graphene is critical for engineering the band gap and delivering an improved activity for photocatalytic hydrogen generation in the absence of any photosensitizer. This work paves the way for the rational design and construction of graphene-based photocatalysts for efficient photocatalysis.

AB - Band gap opening and engineering make up one of the primary goals of developing novel materials for photocatalytic hydrogen generation. We report here a facile synthesis of graphene decorated with in-plane boron nitride domains via control of both the doping sequence of heteroatoms and the oxygen content of the graphene precursor, showing significant differences in the doping pattern compared with B and/or N singly doped or co-doped graphene. We uncover that the formation of BN domains in graphene is critical for engineering the band gap and delivering an improved activity for photocatalytic hydrogen generation in the absence of any photosensitizer. This work paves the way for the rational design and construction of graphene-based photocatalysts for efficient photocatalysis.

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Graphene with Atomic-Level In-Plane Decoration of h-BN Domains for Efficient Photocatalysis

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