[1] C. He, J. Cheng, X. Zhang, M. Douthwaite, S. Pattisson, Z.P. Hao, Recent advances in the catalytic oxidation of volatile organic compounds:a review based on pollutant sorts and sources, Chem. Rev. 119 (7) (2019) 4471-4568 [2] M. Guo, K. Li, H. Zhang, X. Min, X. Hu, W. Guo, J. Jia, T. Sun, Enhanced catalytic activity of oxygenated VOC deep oxidation on highly active in-situ generated GdMn2O5/GdMnO3 catalysts, J Colloid Interface Sci 578 (2020) 229-241 [3] S. Dissanayake, N. Wasalathanthri, A. Shirazi Amin, J.K. He, S. Poges, D. Rathnayake, S.L. Suib, Mesoporous Co3O4 catalysts for VOC elimination:Oxidation of 2-propanol, Appl. Catal. A:Gen. 590 (2020) 117366 [4] Wang Z, Yang H, Liu R, Xie S, Liu Y, Dai H, Huang H, Deng J, Probing toluene catalytic removal mechanism over supported Pt nano-and single-atom-catalyst, J Hazard Mater 392 (2020) 122258 [5] X. Zhang, L. Song, F. Bi, D. Zhang, Y. Wang, L. Cui, Catalytic oxidation of toluene using a facile synthesized Ag nanoparticle supported on UiO-66 derivative, J Colloid Interface Sci 571 (2020) 38-47 [6] M.H. Yuan, C.C. Chang, C.Y. Chang, W.C. Liao, W.K. Tu, J.Y. Tseng, D.R. Ji, J.L. Shie, Y.H. Chen, Ozone-catalytic oxidation for gaseous 1,2-dichloroethane in air over Pt/Al2O3 catalyst, Journal of the Taiwan Institute of Chemical Engineers 53 (2015) 52-57 [7] Z.Y. Jiang, C. He, N.F. Dummer, J.W. Shi, M.J. Tian, C.Y. Ma, Z.P. Hao, S.H. Taylor, M.D. Ma, Z.X. Shen, Insight into the efficient oxidation of methyl-ethyl-ketone over hierarchically micro-mesostructured Pt/K-(Al)SiO2 nanorod catalysts:Structure-activity relationships and mechanism, Appl. Catal. B:Environ. 226 (2018) 220-233 [8] S. Zhang, H. Wang, H. Si, X. Jia, Z. Wang, Q. Li, J. Kong, J. Zhang, Novel core-shell (epsilon-MnO2/CeO2)@CeO2 composite catalyst with a synergistic effect for efficient formaldehyde oxidation, ACS Appl Mater Interfaces 12 (36) (2020) 40285-40295 [9] Q. Ren, S. Mo, R. Peng, Z. Feng, M. Zhang, L. Chen, M. Fu, J. Wu, D. Ye, Controllable synthesis of 3D hierarchical Co3O4 nanocatalysts with various morphologies for the catalytic oxidation of toluene, Journal of Materials Chemistry A 6 (2) (2018) 498-509 [10] J. Guan, D. Wang, H. Yuan, Y. Guo, J. Dai, Experimental study on catalytic oxidation of toluene with manganese catalysts and ozone at low temperature, IOP Conference Series:Earth and Environmental Science 310 (2019) 042028 [11] Y. Jiang, S.H. Xie, H.G. Yang, J.G. Deng, Y.X. Liu, H.X. Dai, Mn3O4-Au/3DOM La0.6Sr0.4CoO3:High-performance catalysts for toluene oxidation, Catal. Today 281 (2017) 437-446 [12] H. Pan, Y.F. Jian, C.W. Chen, C. He, Z.P. Hao, Z.X. Shen, H.X. Liu, Sphere-shaped Mn3O4 catalyst with remarkable low-temperature activity for methyl-ethyl-ketone combustion, Environ Sci Technol 51 (11) (2017) 6288-6297 [13] D. Delimaris, T. Ioannides, VOC oxidation over MnOx-CeO2 catalysts prepared by a combustion method, Appl. Catal. B:Environ. 84 (1-2) (2008) 303-312 [14] J.K. Pulleri, S.K. Singh, D. Yearwar, G. Saravanan, A.S. Al-Fatesh, N.K. Labhasetwar, Morphology dependent catalytic activity of Mn3O4 for complete oxidation of toluene and carbon monoxide, Catal. Lett. 151 (1) (2021) 172-183 [15] Y.N. Liao, X. Zhang, R.S. Peng, M.Q. Zhao, D.Q. Ye, Catalytic properties of manganese oxide polyhedra with hollow and solid morphologies in toluene removal, Appl. Surf. Sci. 405 (2017) 20-28 [16] J.Q. Torres, J.M. Giraudon, J.F. Lamonier, Formaldehyde total oxidation over mesoporous MnOx catalysts, Catal. Today 176 (1) (2011) 277-280 [17] J. Wang, S. Yang, H. Sun, J. Qiu, Y. Men, Highly improved soot combustion performance over synergetic MnxCe1-xO2 solid solutions within mesoporous nanosheets, J Colloid Interface Sci 577 (2020) 355-367 [18] S. Xu, X. Yu, X. Liu, C. Teng, Y. Du, Q. Wu, Contrallable synthesis of peony-like porous Mn-CoP nanorod electrocatalyst for highly efficient hydrogen evolution in acid and alkaline, J Colloid Interface Sci 577 (2020), 379-387 [19] T. Li, B. Xue, B. Wang, G. Guo, D. Han, Y. Yan, A. Dong, Tubular monolayer superlattices of hollow Mn3O4 nanocrystals and their oxygen reduction activity, J Am Chem Soc 139 (35) (2017) 12133-12136 [20] Y.Q. Qiao, Q.J. Sun, O. Sha, X.Y. Zhang, Y.F. Tang, T. de Shen, L.X. Kong, W.M. Gao, Synthesis of Mn3O4 nano-materials via CTAB/SDS vesicle templating for high performance supercapacitors, Mater. Lett. 210 (2018) 128-132 [21] A.K.M.A. Ullah, A.K.M.F. Kibria, M. Akter, M.N.I. Khan, M.A. Maksud, R.A. Jahan, S.H. Firoz, Synthesis of Mn3O4 nanoparticles via a facile gel formation route and study of their phase and structural transformation with distinct surface morphology upon heat treatment, Journal of Saudi Chemical Society 21 (7) (2017) 830-836 [22] D. Lan, M. Qin, R. Yang, H. Wu, Z. Jia, K. Kou, G. Wu, Y. Fan, Q. Fu, F. Zhang, Synthesis, characterization and microwave transparent properties of Mn3O4 microspheres, Journal of Materials Science:Materials in Electronics 30 (9) (2019) 8771-8776 [23] Y. Kong, R. Jiao, H. Li, S. Xu, C. Cui, S. Zeng, L. Wang, Enhanced lithium storage performance of binary cooperative complementary CuO-Mn3O4 nanocomposites directly synthesized by hydrothermally controlled method, Journal of Alloys and Compounds 843 (2020) 156005 [24] C. Wang, X.D. Zhu, P.J. Zuo, Novel confinement of Mn3O4 nanoparticles on two-dimensional carbide enabling high-performance electrochemical synthesis of ammonia under ambient conditions, Chem. Eng. J. 396 (2020) 125163 [25] J. González-Prior, R. López-Fonseca, J.I. Gutiérrez-Ortiz, B. de Rivas, Oxidation of 1, 2-dichloroethane over nanocube-shaped Co3O4 catalysts, Appl. Catal. B:Environ. 199 (2016) 384-393 [26] M. Thommes, K. Kaneko, A.V. Neimark, J.P. Olivier, F. Rodriguez-Reinoso, J. Rouquerol, K.S.W. Sing, Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report), Pure and Applied Chemistry 87 (9-10) (2015) 1051-1069 [27] Y. Lyu, C.T. Li, X.Y. Du, Y.C. Zhu, Y.D. Zhang, S.H. Li, Catalytic oxidation of toluene over MnO2 catalysts with different Mn (II) precursors and the study of reaction pathway, Fuel 262 (2020) 116610 [28] G. Zhu, J. Zhu, W. Jiang, Z. Zhang, J. Wang, Y. Zhu, Q. Zhang, Q., Surface oxygen vacancy induced α-MnO2 nanofiber for highly efficient ozone elimination, Appl. Catal. B:Environ. 209 (2017) 729-737. [29] N. Huang, Z.P. Qu, C. Dong, Y. Qin, X.X. Duan, Superior performance of α@β-MnO2 for the toluene oxidation:Active interface and oxygen vacancy, Appl. Catal. A:Gen. 560 (2018) 195-205 [30] T.Y. Ma, Y. Zheng, S. Dai, M. Jaroniec, S.Z. Qiao, Mesoporous MnCo2O4 with abundant oxygen vacancy defects as high-performance oxygen reduction catalysts, J. Mater. Chem. A 2 (23) (2014) 8676-8682 [31] H.G. Yang, H.X. Dai, J.G. Deng, S.H. Xie, W. Han, W. Tan, Y. Jiang, C.T. Au, Porous cube-aggregated Co3O4 microsphere-supported gold nanoparticles for oxidation of carbon monoxide and toluene, ChemSusChem 7 (6) (2014) 1745-1754 [32] X. Feng, J. Guo, X. Wen, M. Xu, Y. Chu, S. Yuan, Enhancing performance of Co/CeO2 catalyst by Sr doping for catalytic combustion of toluene, Applied Surface Science 445 (2018) 145-153 [33] X. Chen, X. Chen, S.C. Cai, E.Q. Yu, J. Chen, H.P. Jia, MnOx/Cr2O3 composites prepared by pyrolysis of Cr-MOF precursors containing in situ assembly of MnOx as high stable catalyst for toluene oxidation, Appl. Surf. Sci. 475 (2019) 312-324 [34] L. Li, J. Luo, Y. Liu, F. Jing, D. Su, W. Chu, Self-propagated flaming synthesis of highly active layered CuO-delta-MnO2 hybrid composites for catalytic total oxidation of toluene pollutant, ACS Appl Mater Interfaces 9 (26) (2017) 21798-21808 [35] Z.P. Qu, K. Gao, Q. Fu, Y. Qin, Low-temperature catalytic oxidation of toluene over nanocrystal-like Mn-Co oxides prepared by two-step hydrothermal method, Catal. Commun. 52 (2014) 31-35 [36] J.G. Deng, S.N. He, S.H. Xie, H.G. Yang, Y.X. Liu, G.S. Guo, H.X. Dai, Ultralow loading of silver nanoparticles on Mn2O3 nanowires derived with molten salts:a high-efficiency catalyst for the oxidative removal of toluene, Environ Sci Technol 49 (18) (2015) 11089-11095 [37] Q. Yang, D. Wang, C. Wang, K. Li, Y. Peng, J. Li, Promotion effect of Ga-Co spinel derived from layered double hydroxides for toluene oxidation, ChemCatChem 10 (21) (2018) 4838-4843 [38] W. Tang, X. Wu, D. Li, Z. Wang, G. Liu, H. Liu, Y. Chen, Oxalate route for promoting activity of manganese oxide catalysts in total VOCs' oxidation:effect of calcination temperature and preparation method, J. Mater. Chem. A 2 (8) (2014) 2544-2554 [39] H.R. Barai, N.S. Lopa, F. Ahmed, N.A. Khan, S.A. Ansari, S.W. Joo, M.M. Rahman, Synthesis of Cu-doped Mn3O4@Mn-doped CuO nanostructured electrode materials by a solution process for high-performance electrochemical pseudocapacitors, ACS Omega 5 (35) (2020) 22356-22366 [40] X. Tang, Y. Li, J. Chen, Y. Xu, W. Shen, Synthesis, characterization, and catalytic application of titanium-cryptomelane nanorods/fibers, Microporous and Mesoporous Materials 103 (1-3) (2007) 250-256 [41] J.B. Jia, P.Y. Zhang, L. Chen, Catalytic decomposition of gaseous ozone over manganese dioxides with different crystal structures, Appl. Catal. B:Environ. 189 (2016) 210-218 [42] J.R. Niu, H.B. Liu, Y.Y. Zhang, X. Wang, J. Han, Z.H. Yue, E.H. Duan, NiCo2O4 spinel for efficient toluene oxidation:The effect of crystal plane and solvent, Chemosphere 259 (2020) 127427 [43] X.F. Tang, J.H. Li, J.M. Hao, Significant enhancement of catalytic activities of manganese oxide octahedral molecular sieve by marginal amount of doping vanadium, Catal. Commun. 11 (10) (2010) 871-875 [44] Z.A. Su, W.H. Yang, C.Z. Wang, S.C. Xiong, X.Z. Cao, Y. Peng, W.Z. Si, Y.B. Weng, M. Xue, J.H. Li, Roles of oxygen vacancies in the bulk and surface of CeO2 for toluene catalytic combustion, Environ Sci Technol 54 (19) (2020) 12684-12692 [45] M. Piumetti, D. Fino, N. Russo, Mesoporous manganese oxides prepared by solution combustion synthesis as catalysts for the total oxidation of VOCs, Appl. Catal. B:Environ. 163 (2015) 277-287 [46] B. Puértolas, A. Smith, I. Vázquez, A. Dejoz, A. Moragues, T. Garcia, B. Solsona, The different catalytic behaviour in the propane total oxidation of cobalt and manganese oxides prepared by a wet combustion procedure, Chem. Eng. J. 229 (2013) 547-558 [47] Guo M, Li K, Liu L, Zhang H, Guo W, Hu X, Meng X, Jia J, Sun T, Manganese-based multi-oxide derived from spent ternary lithium-ions batteries as high-efficient catalyst for VOCs oxidation, J Hazard Mater 380 (2019) 120905 [48] Y. Liu, Y. Liu, Y. Guo, J. Xu, X. Xu, X. Fang, J. Liu, W. Chen, H. Arandiyan, X. Wang, Tuning SnO2 surface area for catalytic toluene deep oxidation:On the inherent factors determining the reactivity, Industrial & Engineering Chemistry Research 57 (42) (2018) 14052-14063 [49] G. Cheng, L. Yu, B.B. He, M. Sun, B.T. Zhang, W.J. Ye, B. Lan, Catalytic combustion of dimethyl ether over α-MnO2 nanostructures with different morphologies, Appl. Surf. Sci. 409 (2017) 223-231 |