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通过热解g-CN/MIL-125(Ti)复合材料制备的异质结构g-CN/TiO光催化剂用于高效降解污染物和制氢

Heterostructured g-CN/TiO Photocatalysts Prepared by Thermolysis of g-CN/MIL-125(Ti) Composites for Efficient Pollutant Degradation and Hydrogen Production.

作者信息

Tatykayev Batukhan, Chouchene Bilel, Balan Lavinia, Gries Thomas, Medjahdi Ghouti, Girot Emilien, Uralbekov Bolat, Schneider Raphaël

机构信息

CNRS, LRGP, Université de Lorraine, F-54000 Nancy, France.

Department of General and Inorganic Chemistry, Al-Farabi Kazakh National University, Al-Farabi Av., 71, Almaty 050040, Kazakhstan.

出版信息

Nanomaterials (Basel). 2020 Jul 16;10(7):1387. doi: 10.3390/nano10071387.

DOI:10.3390/nano10071387
PMID:32708780
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7407120/
Abstract

Photocatalysts composed of graphitic carbon nitride (g-CN) and TiO were efficiently prepared by thermolysis of the MIL-125(Ti) metal organic framework deposited on g-CN. The heterojunction between the 12 nm-sized TiO nanoparticles and g-CN was well established and the highest photocatalytic activity was observed for the g-CN/TiO (3:1) material. The g-CN/TiO (3:1) composite exhibits high visible light performances both for the degradation of pollutants like the Orange II dye or tetracycline but also for the production of hydrogen (hydrogen evolution rate (HER) up to 1330 μmolhg and apparent quantum yield of 0.22% using NiS as a cocatalyst). The improved visible light performances originate from the high specific surface area of the photocatalyst (86 mg) and from the efficient charge carriers separation as demonstrated by photoluminescence, photocurrent measurements, and electrochemical impedance spectroscopy. The synthetic process developed in this work is based on the thermal decomposition of metal organic framework deposited on a graphitic material and holds huge promise for the preparation of porous heterostructured photocatalysts.

摘要

通过热解沉积在石墨相氮化碳(g-CN)上的MIL-125(Ti)金属有机框架,高效制备了由石墨相氮化碳(g-CN)和TiO组成的光催化剂。在12纳米大小的TiO纳米颗粒与g-CN之间建立了良好的异质结,并且观察到g-CN/TiO(3:1)材料具有最高的光催化活性。g-CN/TiO(3:1)复合材料在降解诸如橙黄II染料或四环素等污染物以及制氢方面均表现出高光性能(使用NiS作为助催化剂时,析氢速率(HER)高达1330 μmol/hg,表观量子产率为0.22%)。光催化剂的高比表面积(86 m²/g)以及光致发光、光电流测量和电化学阻抗谱所证明的有效电荷载流子分离,使得可见光性能得到改善。这项工作中开发的合成工艺基于沉积在石墨材料上的金属有机框架的热分解,为制备多孔异质结构光催化剂带来了巨大的希望。

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