Confined reaction inside nanotubes: New approach to mesoporous g-C3N4 photocatalysts

Xueteng Liu; Fei Pang; Mingyuan He; Jianping Ge

doi:10.1007/s12274-017-1574-7

Confined reaction inside nanotubes: New approach to mesoporous g-C₃N₄ photocatalysts

Xueteng Liu, Fei Pang, Mingyuan He, Jianping Ge

School of Chemistry and Molecular Engineering

East China Normal University

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

Mesoporous g-C₃N₄ nanorods (NRs) are synthesized through the nano-confined thermal condensation of cyanamide in silica nanotubes (NTs) with porous shells. The gas bubbles retained during condensation and the limited cyanamide precursor inside the silica NTs lead to the formation of mesoporous g-C₃N₄. This nano-confined reaction is an alternative method to the traditional templating process for the synthesis of mesoporous materials. The as-prepared mesoporous g-C₃N₄ NRs exhibit remarkably improved photocatalytic activity and high stability in water splitting and degradation of Rhodamine B compared with bulk g-C₃N₄. [Figure not available: see fulltext.].

Original language	English
Pages (from-to)	3638-3647
Number of pages	10
Journal	Nano Research
Volume	10
Issue number	11
DOIs	https://doi.org/10.1007/s12274-017-1574-7
State	Published - 1 Nov 2017

Keywords

confined reaction
g-CN
mesoporous
photocatalysis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/s12274-017-1574-7

Cite this

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title = "Confined reaction inside nanotubes: New approach to mesoporous g-C3N4 photocatalysts",

abstract = "Mesoporous g-C3N4 nanorods (NRs) are synthesized through the nano-confined thermal condensation of cyanamide in silica nanotubes (NTs) with porous shells. The gas bubbles retained during condensation and the limited cyanamide precursor inside the silica NTs lead to the formation of mesoporous g-C3N4. This nano-confined reaction is an alternative method to the traditional templating process for the synthesis of mesoporous materials. The as-prepared mesoporous g-C3N4 NRs exhibit remarkably improved photocatalytic activity and high stability in water splitting and degradation of Rhodamine B compared with bulk g-C3N4. [Figure not available: see fulltext.].",

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T1 - Confined reaction inside nanotubes

T2 - New approach to mesoporous g-C3N4 photocatalysts

AU - Liu, Xueteng

AU - Pang, Fei

AU - He, Mingyuan

AU - Ge, Jianping

PY - 2017/11/1

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N2 - Mesoporous g-C3N4 nanorods (NRs) are synthesized through the nano-confined thermal condensation of cyanamide in silica nanotubes (NTs) with porous shells. The gas bubbles retained during condensation and the limited cyanamide precursor inside the silica NTs lead to the formation of mesoporous g-C3N4. This nano-confined reaction is an alternative method to the traditional templating process for the synthesis of mesoporous materials. The as-prepared mesoporous g-C3N4 NRs exhibit remarkably improved photocatalytic activity and high stability in water splitting and degradation of Rhodamine B compared with bulk g-C3N4. [Figure not available: see fulltext.].

AB - Mesoporous g-C3N4 nanorods (NRs) are synthesized through the nano-confined thermal condensation of cyanamide in silica nanotubes (NTs) with porous shells. The gas bubbles retained during condensation and the limited cyanamide precursor inside the silica NTs lead to the formation of mesoporous g-C3N4. This nano-confined reaction is an alternative method to the traditional templating process for the synthesis of mesoporous materials. The as-prepared mesoporous g-C3N4 NRs exhibit remarkably improved photocatalytic activity and high stability in water splitting and degradation of Rhodamine B compared with bulk g-C3N4. [Figure not available: see fulltext.].

KW - confined reaction

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