Ceria-based oxide catalysts supported on metal–organic frameworks: selective oxidation of toluene to CO2 and the doped metal-activity relationship

Controlling toluene emissions via catalytic oxidation necessitates catalysts with high redox performance.

[1]  Lianzhou Wang,et al.  Mesoporous MnO2 nanosheets for efficient electrocatalytic nitrogen reduction via high spin polarization induced by oxygen vacancy , 2022, Nano Research.

[2]  R. Si,et al.  NaCl-Templated Ultrathin 2D-Yttria Nanosheets Supported Pt Nanoparticles for Enhancing CO Oxidation Reaction , 2022, Nanomaterials.

[3]  Xiangkang Meng,et al.  Double dielectric barrier discharge incorporated with CeO2-Co3O4/γ-Al2O3 catalyst for toluene abatement by a sequential adsorption–discharge plasma catalytic process , 2022, Journal of Cleaner Production.

[4]  Yindi Zhang,et al.  Superior performance of Cu-Ce binary oxides for toluene catalytic oxidation: Cu-Ce synergistic effect and reaction pathways , 2021 .

[5]  Qingling Liu,et al.  Confined Growth of Cu-Doped CeO2 Nanostructures in Boron-Rich Carbon Frameworks for Acetone Oxidation , 2021, ACS Applied Nano Materials.

[6]  Jialu Wang,et al.  Synergistic effect of Pt/Ce and USY zeolite in Pt-based catalysts with high activity for VOCs degradation , 2021 .

[7]  Jiurong Liu,et al.  High-performance microwave absorption of MOF-derived Co3O4@N-doped carbon anchored on carbon foam. , 2021, Journal of colloid and interface science.

[8]  G. Wang,et al.  Oxygen vacancy engineering in Fe doped akhtenskite-type MnO2 for low-temperature toluene oxidation , 2021 .

[9]  M. Shopska,et al.  Influence of Ce addition and Pt loading upon the catalytic properties of modified mesoporous PtTi-SBA-15 in total oxidation reactions , 2021 .

[10]  Qiulin Wang,et al.  Interaction Mechanism Study on Simultaneous Removal of 1,2-Dichlorobenzene and NO over MnOx–CeO2/TiO2 Catalysts at Low Temperatures , 2021 .

[11]  W. Chu,et al.  Effect of different supports on activity of Mn–Ce binary oxides catalysts for toluene combustion , 2021 .

[12]  M. Ayoub,et al.  Preparation of Metal Oxide‐based Oxygen Carriers Supported with CeO 2 and γ ‐Al 2 O 3 for Chemical Looping Combustion , 2021 .

[13]  Jiping Chen,et al.  Low-temperature catalytic degradation of chlorinated aromatic hydrocarbons over bimetallic Ce-Zr/UiO-66 catalysts , 2021 .

[14]  Zhicheng Tang,et al.  CeCoOx-MNS catalyst derived from three-dimensional mesh nanosheet Co-based metal–organic frameworks for highly efficient catalytic combustion of VOCs , 2021 .

[15]  M. Bañares,et al.  Operando Investigation of Toluene Oxidation over 1D Pt@CeO2 Derived from Pt Cluster-Containing MOF. , 2020, Journal of the American Chemical Society.

[16]  Jing Xu,et al.  Probing the surface of promoted CuO-Cr2O3-Fe2O3 catalysts during CO2 activation , 2020 .

[17]  Jinjun Wen,et al.  Highly efficient Cu/CeO2-hollow nanospheres catalyst for the reverse water-gas shift reaction: Investigation on the role of oxygen vacancies through in situ UV-Raman and DRIFTS , 2020 .

[18]  Qingling Liu,et al.  Enhanced Acetone Oxidation on CeO2/Co3O4 Catalyst Derived from Metal Organic Frameworks. , 2020, ACS applied materials & interfaces.

[19]  Qingling Liu,et al.  Novel monolithic catalysts derived from in-situ decoration of Co3O4 and hierarchical Co3O4@MnOx on Ni foam for VOC oxidation , 2020 .

[20]  Qi Zhang,et al.  Highly efficient mesoporous MnO2 catalysts for the total toluene oxidation: Oxygen-Vacancy defect engineering and involved intermediates using in situ DRIFTS , 2020 .

[21]  Daniel C W Tsang,et al.  Recent advances in volatile organic compounds abatement by catalysis and catalytic hybrid processes: A critical review. , 2020, The Science of the total environment.

[22]  Qingling Liu,et al.  Catalytic performance of the Pd/TiO2 modified with MnOx catalyst for acetone total oxidation , 2019 .

[23]  Q. Fu,et al.  Revealing the Highly Catalytic Performance of Spinel CoMn2O4 for Toluene Oxidation: Involvement and Replenishment of Oxygen Species Using In Situ Designed-TP Techniques , 2019, ACS Catalysis.

[24]  Wenxin Li,et al.  A Review on Catalytic Nanomaterials for Volatile Organic Compounds VOC Removal and Their Applications for Healthy Buildings , 2019, Nanomaterials.

[25]  Hongtao Yu,et al.  Efficient photo-Fenton activity in mesoporous MIL-100(Fe) decorated with ZnO nanosphere for pollutants degradation , 2019, Applied Catalysis B: Environmental.

[26]  J. Chen,et al.  MnOx/Cr2O3 composites prepared by pyrolysis of Cr-MOF precursors containing in situ assembly of MnOx as high stable catalyst for toluene oxidation , 2019, Applied Surface Science.

[27]  Xin Zhang,et al.  Recent Advances in the Catalytic Oxidation of Volatile Organic Compounds: A Review Based on Pollutant Sorts and Sources. , 2019, Chemical reviews.

[28]  Chun-Hua Yan,et al.  Direct Identification of Active Surface Species for the Water-Gas Shift Reaction on a Gold-Ceria Catalyst. , 2019, Journal of the American Chemical Society.

[29]  M. Tanabe,et al.  Aerobic Toluene Oxidation Catalyzed by Subnano Metal Particles. , 2018, Angewandte Chemie.

[30]  Xin Li,et al.  One-step synthesis of Co-doped UiO-66 nanoparticle with enhanced removal efficiency of tetracycline: Simultaneous adsorption and photocatalysis , 2018, Chemical Engineering Journal.

[31]  R. Jin,et al.  Pt/CeO2@MOF Core@Shell Nanoreactor for Selective Hydrogenation of Furfural via the Channel Screening Effect , 2018, ACS Catalysis.

[32]  P. Liang,et al.  In situ pyrolysis of Ce-MOF to prepare CeO2 catalyst with obviously improved catalytic performance for toluene combustion , 2018, Chemical Engineering Journal.

[33]  Y. Mai,et al.  Self-powered, high-speed Sb2Se3/Si heterojunction photodetector with close spaced sublimation processed Sb2Se3 layer , 2018 .

[34]  Chuanhui Zhang,et al.  Fabrication of mesoporous Co3O4 oxides by acid treatment and their catalytic performances for toluene oxidation , 2018 .

[35]  X. Hou,et al.  Catalytic Reduction of NO by CO over Promoted Cu3Ce0.2Al0.8 Composite Oxides Derived from Hydrotalcite-Like Compounds , 2018 .

[36]  X. Xiao,et al.  Influence of Mn/Ce ratio on the physicochemical properties and catalytic performance of graphene supported MnOx-CeO2 oxides for NH3-SCR at low temperature , 2017 .

[37]  R. Mandal,et al.  Stabilization of temperature during magnetic hyperthermia by Ce substituted magnetite nanoparticles , 2017 .

[38]  Abdullah M. Asiri,et al.  Metal Organic Frameworks as Versatile Hosts of Au Nanoparticles in Heterogeneous Catalysis , 2017 .

[39]  L. Lietti,et al.  Removal of NOx and soot over Ce/Zr/K/Me (Me = Fe, Pt, Ru, Au) oxide catalysts , 2017 .

[40]  H. Dai,et al.  Three-dimensionally ordered macroporous CeO2-supported Pd@Co nanoparticles: Highly active catalysts for methane oxidation , 2016 .

[41]  Junhua Li,et al.  Hierarchical Core–Shell Al2O3@Pd-CoAlO Microspheres for Low-Temperature Toluene Combustion , 2016 .

[42]  T. García,et al.  The prevalence of surface oxygen vacancies over the mobility of bulk oxygen in nanostructured ceria for the total toluene oxidation , 2015 .

[43]  G. Guo,et al.  Ultralow Loading of Silver Nanoparticles on Mn2O3 Nanowires Derived with Molten Salts: A High-Efficiency Catalyst for the Oxidative Removal of Toluene. , 2015, Environmental science & technology.

[44]  J. Hupp,et al.  Metal-organic framework nodes as nearly ideal supports for molecular catalysts: NU-1000- and UiO-66-supported iridium complexes. , 2015, Journal of the American Chemical Society.

[45]  Haojun Huang,et al.  Catalytic combustion of chlorobenzene over VOx/CeO2 catalysts , 2015 .

[46]  O. Simakova,et al.  Aerobic Oxidative Esterification of Benzyl Alcohol and Acetaldehyde over Gold Supported on Nanostructured Ceria–Alumina Mixed Oxides , 2015 .

[47]  Yang Jiang,et al.  Au/3DOM Co3O4: highly active nanocatalysts for the oxidation of carbon monoxide and toluene. , 2013, Nanoscale.

[48]  Changyan Li,et al.  Creation of three-dimensionally ordered macroporous Au/CeO2 catalysts with controlled pore sizes and their enhanced catalytic performance for formaldehyde oxidation , 2009 .

[49]  T. Ioannides,et al.  VOC oxidation over CuO–CeO2 catalysts prepared by a combustion method , 2008 .

[50]  Kazuhiro Fukumoto,et al.  Mesostructured manganese oxide/gold nanoparticle composites for extensive air purification. , 2007, Angewandte Chemie.

[51]  Fukun Bi,et al.  The promoting effect of H2O on rod-like MnCeOx derived from MOFs for toluene oxidation: A combined experimental and theoretical investigation , 2021 .

[52]  Junhua Li,et al.  Comparative study of α-, β-, γ- and δ-MnO2 on toluene oxidation: Oxygen vacancies and reaction intermediates , 2020 .

[53]  Qijin Wan,et al.  Nanointerfaces of expanded graphite and Fe2O3 nanomaterials for electrochemical monitoring of multiple organic pollutants , 2020 .

[54]  Peng Yang,et al.  Deep oxidation of chlorinated VOCs over CeO2-based transition metal mixed oxide catalysts , 2015 .

[55]  B. M. Reddy,et al.  Nanostructured manganese doped ceria solid solutions for CO oxidation at lower temperatures , 2015 .