Inorganic Chemistry
Article
(
3) Mei, J.; Zhao, S.; Huang, W.; Qu, Z.; Yan, N. Mn-Promoted
Perovskites with Different Morphologies for VOC Removal. Inorg.
Chem. 2018, 57, 8451−8457.
Co O /TiO as an Efficient Catalyst for Catalytic Oxidation of
3
4
2
Dibromomethane (CH Br ). J. Hazard. Mater. 2016, 318, 1−8.
(22) Liu, L.; Jia, J.; Sun, T.; Zhang, H. A Facile Method for Scalable
2
2
(
4) Everaert, K.; Baeyens, J. Catalytic Combustion of Volatile
Organic Compounds. J. Hazard. Mater. 2004, 109, 113−139.
5) Thevenet, F.; Sivachandiran, L.; Guaitella, O.; Barakat, C.;
Preparation of Mesoporous Structured SmMnO Perovskites Sheets
3
for Efficient Catalytic Oxidation of Toluene. Mater. Lett. 2018, 212,
107−110.
́
(23) Becher, C.; Maurel, L.; Aschauer, U.; Lilienblum, M.; Magen,
C.; Meier, D.; Langenberg, E.; Trassin, M.; Blasco, J.; Krug, I. P.;
Algarabel, P. A.; Spaldin, N. A.; Pardo, J. A.; Fiebig, M. Strain-Induced
Coupling of Electrical Polarization and Structural Defects in Srmno3
Films. Nat. Nanotechnol. 2015, 10, 661.
(
Rousseau, A. Plasma-Catalyst Coupling for Volatile Organic
Compound Removal and Indoor Air Treatment: A Review. J. Phys.
D: Appl. Phys. 2014, 47, 87−95.
(
6) Destaillats, H.; Sleiman, M.; Sullivan, D. P.; Jacquiod, C.;
Sablayrolles, J.; Molins, L. Key Parameters Influencing the Perform-
ance of Photocatalytic Oxidation (PCO) Air Purification under
Realistic Indoor Conditions. Appl. Catal., B 2012, 128, 159−170.
(24) Wang, W.; McCool, G.; Kapur, N.; Yuan, G.; Shan, B.; Nguyen,
M.; Graham, U. M.; Davis, B. H.; Jacobs, G.; Cho, K.; Hao, X. Mixed-
Phase Oxide Catalyst Based on Mn-Mullite (Sm, Gd)Mn O for NO
(
7) Li, L.; Liu, S.; Liu, J. Surface Modification of Coconut Shell
2
5
Based Activated Carbon for the Improvement of Hydrophobic VOC
Oxidation in Diesel Exhaust. Science 2012, 337, 832−835.
Removal. J. Hazard. Mater. 2011, 192, 683−690.
(25) Ciambelli, P.; Cimino, S.; De Rossi, S.; Faticanti, M.; Lisi, L.;
(
8) Malhautier, L.; Quijano, G.; Avezac, M.; Rocher, J.; Fanlo, J. L.
Minelli, G.; Pettiti, I.; Porta, P.; Russo, G.; Turco, M. AMnO (a = La,
3
Kinetic Characterization of Toluene Biodegradation by Rhodococcus
Erythropolis: Towards a Rationale for Microflora Enhancement in
Bioreactors Devoted to Air Treatment. Chem. Eng. J. 2014, 247, 199−
Nd, Sm) and Sm1−xSr MnO Perovskites as Combustion Catalysts:
x
3
Structural, Redox and Catalytic Properties. Appl. Catal., B 2000, 24,
243−253.
(26) Zhang, C.; Guo, Y.; Guo, Y.; Lu, G.; Boreave, A.; Retailleau, L.;
2
04.
9) Mei, J.; Ke, Y.; Yu, Z.; Hu, X.; Qu, Z.; Yan, N. Morphology-
Dependent Properties of CO O /CeO Catalysts for Low Temper-
(
Baylet, A.; Giroir-Fendler, A. LaMnO Perovskite Oxides Prepared by
3
Different Methods for Catalytic Oxidation of Toluene. Appl. Catal., B
2014, 148, 490−498.
3
4
2
ature Dibromomethane (CH Br ) Oxidation. Chem. Eng. J. 2017, 320,
2
2
1
24−134.
10) Mei, J.; Zhao, S.; Xu, H.; Qu, Z.; Yan, N. The Performance and
Mechanism for the Catalytic Oxidation of Dibromomethane
(27) Campagnoli, E.; Tavares, A.; Fabbrini, L.; Rossetti, I.; Dubitsky,
Y. A.; Zaopo, A.; Forni, L. Effect of Preparation Method on Activity
and Stability of LaMnO and LaCoO Catalysts for the Flameless
(
3
3
(
3
CH Br ) over Co O /TiO Catalysts. RSC Adv. 2016, 6, 31181−
Combustion of Methane. Appl. Catal., B 2005, 55, 133−139.
(28) Liu, Y.; Dai, H.; Deng, J.; Du, Y.; Li, X.; Zhao, Z.; Wang, Y.;
Gao, B.; Yang, H.; Guo, G. In Situ Poly(Methyl Methacrylate)-
Templating Generation and Excellent Catalytic Performance of
MnOx/3DOM LaMnO3 for the Combustion of Toluene and
Methanol. Appl. Catal., B 2013, 140, 493−505.
(29) Liu, L.; Zhang, H.; Guo, M.; Zhou, P.; Min, X.; Jia, J.; Sun, T.
Self-Molten-Polymerization Synthesis of Highly Defected Mn/Sm
Binary Oxides with Mesoporous Structures for Efficient Removal of
Toluene and Chlorobenzene. Inorg. Chem. Front. 2019, 6, 1158−
1169.
2
2
3
4
2
1190.
(
11) Mei, J.; Wang, C.; Kong, L.; Liu, X.; Hu, Q.; Zhao, H.; Yang, S.
Outstanding Performance of Recyclable Amorphous MoS Supported
on TiO for Capturing High Concentrations of Gaseous Elemental
Mercury: Mechanism, Kinetics, and Application. Environ. Sci. Technol.
2
3
2
019, 53, 4480−4489.
(
12) Tomatis, M.; Xu, H. H.; He, J.; Zhang, X.-D. Recent
Development of Catalysts for Removal of Volatile Organic
Compounds in Flue Gas by Combustion: A Review. J. Chem. 2016,
2
016, 1−15.
(
13) Huang, H.; Xu, Y.; Feng, Q.; Leung, D. Y. C. Low Temperature
(30) Chen, J.; Chen, X.; Chen, X.; Xu, W.; Xu, Z.; Jia, H.; Chen, J.
Homogeneous Introduction of Ceoy into Mnox-Based Catalyst for
Oxidation of Aromatic Vocs. Appl. Catal., B 2018, 224, 825−835.
(31) Si, W.; Wang, Y.; Zhao, S.; Hu, F.; Li, J. A Facile Method for in
Situ Preparation of the MnO /LaMnO Catalyst for the Removal of
Catalytic Oxidation of Volatile Organic Compounds: A Review. Catal.
Sci. Technol. 2015, 5, 2649−2669.
(
14) Zhu, J.; Li, H.; Zhong, L.; Xiao, P.; Xu, X.; Yang, X.; Zhao, Z.;
Li, J. Perovskite Oxides: Preparation, Characterizations, and
2
3
Applications in Heterogeneous Catalysis. ACS Catal. 2014, 4,
Toluene. Environ. Sci. Technol. 2016, 50, 4572−4578.
2
(
917−2940.
15) Kim, S. C.; Shim, W. G. Catalytic Combustion of Vocs over a
Series of Manganese Oxide Catalysts. Appl. Catal., B 2010, 98, 180−
85.
16) Rotter, H.; Landau, M. V.; Herskowitz, M. Combustion of
(32) Chen, Z.; Li, J.; Yang, P.; Cheng, Z.; Li, J.; Zuo, S. Ce-Modified
Mesoporous γ-Al O Supported Pd-Pt Nanoparticle Catalysts and
2
3
Their Structure-Function Relationship in Complete Benzene
1
(
Oxidation. Chem. Eng. J. 2019, 356, 255−261.
(33) Si, W.; Wang, Y.; Peng, Y.; Li, J. Selective Dissolution of a-Site
Cations in ABO3 Perovskites: A New Path to High-Performance
Catalysts. Angew. Chem. 2015, 127, 8065−8068.
Chlorinated VOC on Nanostructured Chromia Aerogel as Catalyst
and Catalyst Support. Environ. Sci. Technol. 2005, 39, 6845−6850.
(
17) Grimaud, A.; Diaz-Morales, O.; Han, B.; Hong, W. T.; Lee, Y.
(34) Wang, Y.; Xie, S.; Deng, J.; Deng, S.; Wang, H.; Yan, H.; Dai,
H. Morphologically Controlled Synthesis of Porous Spherical and
Cubic LaMnO3 with High Activity for the Catalytic Removal of
Toluene. ACS Appl. Mater. Interfaces 2014, 6, 17394−17401.
(35) Teng, F.; Han, W.; Liang, S.; Gaugeu, B.; Zong, R.; Zhu, Y.
Catalytic Behavior of Hydrothermally Synthesized La Sr MnO
3
L.; Giordano, L.; Stoerzinger, K. A.; Koper, M. T. M.; Shao-Horn, Y.
Activating Lattice Oxygen Redox Reactions in Metal Oxides to
Catalyse Oxygen Evolution. Nat. Chem. 2017, 9, 457−465.
(
18) Mei, J.; Xie, J.; Sun, Y.; Qu, Z.; Yan, N. Design of Co O /
3 4
CeO −Co O Hierarchical Binary Oxides for the Catalytic Oxidation
2
3
4
0.5 0.5
of Dibromomethane. J. Ind. Eng. Chem. 2019, 73, 134−141.
19) Liu, L.; Li, J.; Zhang, H.; Li, L.; Zhou, P.; Meng, X.; Guo, M.;
Jia, J.; Sun, T. In Situ Fabrication of Highly Active γ-MnO /SmMnO
Single-Crystal Cubes in the Oxidation of Co and CH . J. Catal.
2007, 250, 1−11.
(36) Liu, Y.; Dai, H.; Du, Y.; Deng, J.; Zhang, L.; Zhao, Z.; Au, C. T.
Controlled Preparation and High Catalytic Performance of Three-
Dimensionally Ordered Macroporous LaMnO3 with Nanovoid
Skeletons for the Combustion of Toluene. J. Catal. 2012, 287,
149−160.
(37) Liu, Y.; Dai, H.; Du, Y.; Deng, J.; Zhang, L.; Zhao, Z. Lysine-
Aided PMMA-Templating Preparation and High Performance of
Three-Dimensionally Ordered Macroporous LaMnO3 with Meso-
porous Walls for the Catalytic Combustion of Toluene. Appl. Catal., B
2012, 119, 20−31.
4
(
2
3
Catalyst for Deep Catalytic Oxidation of Gaseous Benzene,
Ethylbenzene, Toluene, and O-Xylene. J. Hazard. Mater. 2019, 362,
1
(
78−186.
20) Suar
A.; Giroir-Fendler, A. Catalytic Oxidation of Toluene by SrTi B O
3
ez-Vazquez, S. I.; Gil, S.; García-Vargas, J. M.; Cruz-Lopez,
́ ́ ́
1
‑x
x
(
B = Cu and Mn) with Dendritic Morphology Synthesized by One
Pot Hydrothermal Route. Appl. Catal., B 2018, 223, 201−208.
21) Liu, L.; Zhang, H.; Jia, J.; Sun, T.; Sun, M. Direct Molten
Polymerization Synthesis of Highly Active Samarium Manganese
(
H
Inorg. Chem. XXXX, XXX, XXX−XXX