Bismuth vanadate/MXene (BiVO4/Ti3C2) heterojunction composite: enhanced interfacial control charge transfer for highly efficient visible light photocatalytic activity

被引:0
作者
Muhammad Munir Sajid
Sadaf Bashir Khan
Yasir Javed
Nasir Amin
Zhengjun Zhang
Naveed Akhtar Shad
Haifa Zhai
机构
[1] Henan Normal University,School of Physics
[2] Henan Normal University,College of Materials Science and Engineering
[3] Shenzhen University,Institute for Advanced Study
[4] Shenzhen University,Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province, College of Optoelectronic Engineering
[5] University of Agriculture,Department of Physics
[6] Government College University Allama Iqbal Road,Department of Physics
[7] Tsinghua University,Advanced Key Laboratory for New Ceramics, School of Materials Science & Engineering
来源
Environmental Science and Pollution Research | 2021年 / 28卷
关键词
MXenes; BiVO; /Ti; C; Catalysis; Congo red; Methyl orange; Hydrothermal; Water purification; Nanoparticles;
D O I
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中图分类号
学科分类号
摘要
We have synthesized BiVO4/Ti3C2 nanocomposite via a low-cost hydrothermal method and investigate its photocatalytic degradation activity against monoazo (methyl orange) and diazo dye (Congo red) in an aqueous solution under visible light. The physiochemical characterization exhibited that the addition of MXene in pristine BiVO4 nanocomposite led to an increase in specific surface area and reduction in optical band gap energy. MXene also helps in enhancing visible light response via a higher electron-hole pair generation rate and long lifetime. The synthesized BiVO4/Ti3C2 heterojunction composite exhibited 99.5 % degradation efficiency within 60 min for Congo red and 99.1 % for methyl orange solution in 130 min owed to a large specific surface area (1.79 m2/g), reduced band gap (1.99 eV), and low recombination rate of charge carriers. The chemical mechanism for BiVO4/Ti3C2 nanocomposite proposes that Ti3C2 role-plays as electron capture because of the higher potential of MXenes, tuning band gap energy which paves the way to excellent photocatalytic action. This work opens a new basis for developing Ti3C2 based promising and inexpensive co-catalyst for efficient solar utilization in photocatalytic-related applications in the future.
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页码:35911 / 35923
页数:12
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  • [1] Abbasi A(2016)Photo-degradation of methylene blue: photocatalyst and magnetic investigation of Fe 2 O 3–TiO 2 nanoparticles and nanocomposites J Mater Sci Mater Electron 27 4800-4809
  • [2] Ghanbari D(2016)Degradation of methylene blue dye by CuO-BiVO4 photocatalysts under visible light irradiation Malaysian J Analy Sci 20 1338-1345
  • [3] Salavati-Niasari M(2011)Influence of parameters on the heterogeneous photocatalytic degradation of pesticides and phenolic contaminants in wastewater: a short review J Environ Manag 92 311-330
  • [4] Hamadanian M(2018)Structural and optical properties of Cu-substitution of NiAl2O4 and their photocatalytic activity towards Congo red under solar light irradiation J Photochem Photobiol A Chem 364 542-550
  • [5] Abdullah AH(2017)Guidelines for synthesis and processing of two-dimensional titanium carbide (Ti3C2T x MXene) Chem Mater 29 7633-7644
  • [6] Peng WT(2019)Magnetic nanocarriers: evolution of spinel ferrites for medical applications Adv Colloid Interf Sci 265 29-44
  • [7] Hussein M(2015)One-pot self-assembly of Cu2O/RGO composite aerogel for aqueous photocatalysis Appl Surf Sci 358 146-151
  • [8] Ahmed S(2013)A review on non metal ion doped titania for the photocatalytic degradation of organic pollutants under UV/solar light: role of photogenerated charge carrier dynamics in enhancing the activity Appl Catal B Environ 140 559-587
  • [9] Rasul M(2015)Low-bandgap near-IR conjugated polymers/molecules for organic electronics Chem Rev 115 12633-12665
  • [10] Brown R(2017)BiVO 4-rGO with a novel structure on steel fabric used as high-performance photocatalysts Sci Rep 7 1-9
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