团队负责人 团队负责人

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简历:

博士,研究员,博士生导师;中科院“百人计划”入选者,福建省引进高层次人才,厦门市“双百计划”海外高层创新人才入选者;2001年本科毕业于西北大学材料化学专业;2002-2007年中国科学院福建物质结构研究所硕博连读,获得无机化学博士;2007-2014年分别在瑞士伯尔尼大学、美国德州大学奥斯汀分校、法国国家科研中心(CNRS)里昂化学、催化、聚合物与过程(C2P2)实验室从事研究工作;2014年9月回国,主要致力于环境功能材料的研发及其在气态污染物(VOCs)控制与消除方面的研究;近五年来主持及参与科研项目20 余项;在环境领域主流期刊如Angewandte Chemie International Edition、Applied Catalysis B:Environmental、Environmental Science & Technology和Journal of Materials Chemistry A等发表SCI论文39 篇;申请发明专利20 项,已授权发明专利6 项;获得国家2020年度环境保护科学技术奖二等奖1 项(第三完成人);担任Frontiers in Nanotechnology、Chinese Chemical Letters期刊编委,中国环境科学学会挥发性有机物污染防治专业委员会常委、中国环境科学学会青年科学家分会委员。

 

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2024
[1] Q. Li, C.-H. Wang, H.-L. Wang, J. Chen, J. Chen, H.-P. Jia, Disclosing Support-Size-Dependent Effect on Ambient Light-Driven Photothermal CO2 Hydrogenation over Nickel/Titanium Dioxide. Angew. Chem. Int. Ed., 2024, 63, e202318166.
[2] C.-Q. Wang, S.-Y. Su, Q. Li, X.-L. Lv, Z. Xu, J. Chen, H.-P. Jia, Monolithic Catalyst of Ni Foam-Supported MnOx for Boosting Magnetocaloric Oxidation of Toluene. Environ. Sci. Technol. 2024, 58, 1410-1419.
[3] H.-W. wang, Q. Li, J. Chen, H.-P. Jia, Ruthenium supported on zirconia–carbon nanocomposites derived by using UiO-66 for efficient photothermal catalytic CO2 reduction, J. Mater. Chem. A, 2024, 12, 15803-15813.
[4] 许文建,贾宏鹏,陈金,李晓兰. MnO2负载贵金属催化剂用于CO低温催化氧化的研究. 能源环境保护,2024, 38, 189-197.
[5] X.-L. Lv, S.-N. Wu, S.-T. Shao, D.-X. Yan, W.-J. Xu, H.-P. Jia, H. He, Efficient Catalytic Elimination of Chlorobenzene Based on the Water Vapor-Promoting Effect within Mn-Based Catalysts: Activity Enhancement and Polychlorinated Byproduct Inhibition. Environ. Sci. Technol. 2024, 58, 3985-3996.
[6] S.-N. Wu, X.-L. Lv, X.-H. Hao, J. Chen, H.-P. Jia, Enhancement of Mineralization Ability and Water Resistance of Vanadium-Based Catalysts for Catalytic Oxidation of Chlorobenzene by Platinum Loading. Environ. Sci. Technol. 2024, 58, 15836-15845.
[7] S.-Y. Su, C.-Q. Wang, H.-Y. Duan, X.-L. Lv, J. Chen, H.-P. Jia, Unveiling the Role of Oxygen Vacancy of Manganese Oxide Coating on Ni Foam to Magnetocaloric Catalytic Oxidation of Toluene. J. Hazard. Mater. 2024, 136279.
[8] X.-H. Hao, S.-N. Wu, X.-L. Lv, J. Chen, H.-P. Jia, In situ reaction-induced strong metal-support interaction to enhance catalytic performance and stability of toluene oxidation, Sep. Purif. Technol. 2024, (accepted).

2023
[1] C. Wang, Y. Li, H.-A. Liu, Z.-Y. Hu, X.-H. Hao, H.-P. Jia, J. Chen, C.-Z. Lu, Constructing a High Concentration CuO/CeO2 Interface for Complete Oxidation of Toluene: The Fantastic Application of Spatial Confinement Strategy. J. Rare Earths, 2023, 41, 850-861.
[2] M. Zhang, G.-H. Li, Q. Li, J. Chen, E. A. Elimian, H.-P. Jia, H. He, In-situ Construction of Manganese Oxide Photothermocatalyst to Deep Removal of Toluene by Highly Utilizing Sunlight Energy, Environ. Sci. Technol., 2023, 57, 4286-4297.
[3] X.-D. Yang, J.-H. Zhou, J.-W. Cui, J. Yang, H.-P. Jia, J.-K. Sun, J. Zhang, Long-Lived Multiple Charge Separation by Proton-Coupled Electron Transfer. Angew. Chem. Int. Ed. 2023, 62, e202215591.
[4] C.-Q. Wang, J. Chen, Q. Li, S.-Y. Su, H.-P. Jia, H. He, Unveiling the Position Effect of Ce within Layered MnO2 to Prolong the Ambient Removal of Indoor HCHO.  Environ. Sci. Technol., 2023, 57, 4598−4607.
[5] Q. Li, H.-L. Wang, M. Zhang, G.-H. Li, J. Chen, H.-P. Jia, Suppressive Strong Metal-Support Interactions on Ruthenium/TiO2 Promote Light-Driven Photothermal CO2 Reduction with Methane. Angew. Chem. Int. Ed. 2023, e202300129.
[6] E. A. Elimian, M. Zhang, Q. Li, J. Chen, Y. Sun, H.-P. Jia, J. He, Light-driven photothermal catalytic oxidation of toluene over CuOx-WOx/mTiO2-x-USY: Revealing CuOx-WOx synergy. Appl. Catal. B: Environ. 2023, 331, 122702.
[7] G.-H. Li, M. Zhang, J. Chen, Q. Li, H.-P. Jia, Combined effects of Pt nanoparticles and oxygen vacancies to promote photothermal catalytic degradation of toluene. J. Hazard. Mater., 2023, 449, 131041.
[8] Engineering light propagation for synergetic photo- and thermocatalysis toward volatile organic compounds elimination. Chem. Eng. J., 2023, 461,142022.
[9] E. A. Elimian, M. Zhang, Y. Sun, J. He, H. Jia, Harnessing Solar Energy Towards Synergistic Photothermal Catalytic Oxidation of Volatile Organic Compounds, Sol. RRL. 2023, 2300238.
[10] D.-X. Yan, Y.-X. Gao, M.-Y. Qi, H.-J. Jia, Y.-J. Xu, In-Situ High-Temperature Reaction Induced Local Structural Dynamic Evolution of Single-Atom Pt on Oxide Support. Precision Chemistry, 2023, (accepted).
[11] J. Chen, S. Su, C. Wang, Q. Li, H. Wang, W. Xu, X. Li, H. Jia, Understanding CO2 reduction via reverse water-gas shift triggered by electromagnetic induction at moderate condition, Chem. Eng. J. 2023, 146712.
[12] H.-L. Wang, Q. Li, J. Chen, J. Chen, H.-P. Jia, Efficient Solar-Driven CO2 Methanation and Hydrogen Storage Over Nickel Catalyst Derived from Metal–Organic Frameworks with Rich Oxygen Vacancies, Adv. Sci. 2023, 2304406.
[13] G.-H. Li,X.-L. Li, X.-H. Hao, Q. Li, M. Zhang, H.-J. Jia, Ti3+/Ti4+ and Co2+/Co3+ redox couples in Ce-doped Co-Ce/TiO2 for enhancing photothermocatalytic toluene oxidation, J. Environ. Sci, 2023 (Accept).
[14] C.-Q. Wang, S.-Y. Su, Q. Li, X.-L. Lv, Z. Xu, J. Chen, H.-P. Jia, Monolithic Catalyst of Ni Foam-Supported MnOx for Boosting Magnetocaloric Oxidation of Toluene, Environ. Sci. Technol. 2023 (Accept).

2022
[1]Q.Li,Y.-X.Gao,M. Zhang, H. Gao, J. Chen, H-P. Jia, Efficient infrared-light-driven photothermal CO2 reduction over MOF-derived defective Ni/TiO2. Appl. Catal. B: Environ., 2022, 303, 120905.
[2]J.Chen, W.-J. Xu, X.-L.Li,C.-Q.Wang, H.-P. Jia, Combining Bi-functional Pt/USY and Electromagnetic Induction for Rapid in-situ Adsorption-combustion Cycling of Gaseous Organic Pollutant. J. Hazard. Mater., 2022, 426, 128097.
[3]H. Gao, X.-L. Lv, M. Zhang, Q. Li, J. Chen, Z.-J. Hu, H.-P. Jia, Copper-cobalt strong interaction to improve photothermocatalytic performance of cobalt-copper oxides supported on copper foam for toluene oxidation. Chem. Eng. J., 2022, 434,134618.
[4]C.-Q. Wang, J. Chen, W.-J. Xu, X.-L. Li, H.-P. Jia, Cooking-like Regeneration Prolonging Catalytic Lifetime for Ambient Removal of Indoor HCHO. ACS EST Engg., 2022, 2, 1229-1238.
[5]Y.-X. Gao, D.-X. Yan, C.-Q. Wang, J. Chen, J. Chen, H.-P. Jia,Regeneration of La2O3-Supported Pt Nanoparticles Giving High Loadings of Thermally Stable Pt Single Atoms on La2O3 Supports: Implications for Catalysis. ACS Appl. Nano Mater., 2022, 5, 2688-2698.
[6]M. Zhang, H. Gao, J. Chen, E. A. Elimian, H.-P. Jia, Calcination engineering of urchin-like CoOx-CN catalysts to enhance photothermocatalytic oxidation of toluene via photo-/thermo- coupling effect. Appl. Catal. B: Environ., 2022, 307, 121208.
[7]E. A. Elimian, M. Zhang, J. Chen, H.-P. Jia, Y. Sun, J. He, Construction of Pt-mTiO2/USY multifunctional catalyst enriched with oxygen vacancies for the enhanced light-driven photothermocatalytic degradation of toluene,Appl. Catal. B:. Environ., 2022, 307, 121203.
[8]X.-L. Lv, M.-Z. Jiang, J. Chen, D.-X. Yan, H.-P. Jia, Unveiling the lead resistance mechanism and interface regulation strategy of Ru-based catalyst during chlorinated VOCs oxidation. Appl. Catal. B: Environ., 2022, 315, 121592.
[9]Y.-X. Gao, Q. Li, C.-Q. Wang, D.-X. Yan, J. Chen, H.-P. Jia, Light-driven Efficient Dry Reforming of Methane over Pt/La2O3 with Long-Time Durability. J. Mater. Chem. A, 2022, 10, 16016–16028.
[10]M.-Z. Jiang, D.-X. Yan, X.-L. Lv, Y.-X. Gao, H.-P. Jia, Recognition of water-dissociation effect toward lattice oxygen activation on single-atom Co catalyst in toluene oxidation. Appl. Catal. B:. Environ., 2022, 319, 121962.
[11]Q. Li, Y.-X. Gao, J. Chen, H.-P. Jia, An in situ defect engineering approach for light-driven methane dry reforming over atomically distributed nickel. Cell Rep. Phys. Sci., 2022, 3, 101127.
[12] H. Gao, Q. Li, M. Zhang, X.-L. Lv, J. Chen, H.-P. Jia, Pt Nanoparticles and NiO Nanosheets on Ni Foam for Photothermal Degradation of Toluene. ACS Appl. Nano Mater. 2022. 5,18821-18831.
[13]J.Chen,C.-Q. Wang, X.-L. Lv, G.-X. Huang, W.-J. Xu, X.-L. Li, H.-P. Jia, Pt/CeO2 Coated with Polyoxometallate Chainmail to Regulate Oxidation of Chlorobenzene without Hazardous By-products. J. Hazard. Mater., 2023, 441, 129925.
[14]Y. Li, J. Chen, Z.-Y. Hu, X.-L. Lv, H.-P. Jia, A Facile Method to Synthesize Co3O4 Catalyst for Efficient Chlorobenzene Combustion. ChemistrySelect, 2022, 7, e202200481.

2021
[1] J. Chen, X. -L. Lv, W. -J.  Xu, X. -L. Li, J. Chen, H. -P. Jia, Utilizing Cl coordination to facilitate Ru-Ag self-assembling into alloy and recover thermally-inactivated catalyst for propane combustion. Appl. Catal. B: Environ., 2021, 290, 119989.
[2] S.-C. Cai, J. Chen, Q. Li, H. -P. Jia, Enhanced Photocatalytic CO2 Reduction with Photothermal Effect by Cooperative Effect of Oxygen Vacancy and Au Cocatalyst. ACS Appl. Mater. Interfaces 2021, 13, 14221−14229.
[3] M. Zhang, S.-C. Cai, J.-J. Li, E. A. Elimian, J. Chen, H.-P. Jia, Ternary multifunctional catalysts of polymeric carbon nitride coupled with Pt-embedded transition metal oxide to enhance light-driven photothermal catalytic degradation of VOCs. J. Hazar. Mater. 2021, 412, 125266.
[4] M.-Z. Jiang, J. Chen, Y.-X. Gao, X.-L. Lv, D.-X. Yan, H.-P. Jia, Using the Interaction between Copper and Manganese to Stabilize Copper Single-atom for CO Oxidation. Chem. Eur. J., 2021, 27, 1-12.
[5] X.-L. Lv, S.-C. Cai, J. Chen, D.-X. Yan, M.-Z. Jiang, J. Chen, H.-P. Jia, Tuning degradation activity and pathways of chlorinated organic pollutants over CeO2 catalyst with acid sites: Synergistic effect of Lewis and Brønsted acid sites. Catal. Sci. Technol., 2021, 11, 4581-4595.
[6] Z.-Y. Hu, J. Chen, D.-X. Yan, Y. Li, H.-P. Jia, C.-Z. Lu, Enhanced catalytic activities of MnOx/Co3O4 nanocomposites prepared via MOFs-templated approach for chlorobenzene oxidation. Appl. Surf. Sci., 2021, 551, 149453.
[7] J.-J. Li, M. Zhang, E. A. Elimian, X.-L. Lv, J. Chen, H.-P. Jia, Convergent ambient sunlight-powered multifunctional catalysis for toluene abatement over in situ exsolution of Mn3O4 on perovskite parent, Chem. Eng. J., 2021, 412, 128560.
 
2020
[1] E.-Q.Yu, J.-J. Li, J. Chen, J.Chen, Z.-X. Hong, H.-P. Jia, Enhanced photothermal catalytic degradation of toluene by loading Pt nanoparticles on manganese oxide: photoactivation of lattice oxygen, J. Hazard. Mater., 2020, 388, 121800.
[2] J.-J. Li, M. Zhang, B. weng, X. Chen, J. Chen, H.-P. Jia, Oxygen vacancies mediated charge separation and collection in Pt/WO3 nanosheets for enhanced photocatalytic performance, Appl. Surf. Sci., 2020, 507, 145133.
[3] J. Chen, M.-Z. Jiang, J. Chen, W.-J. Xu, H.-P. Jia, Selective Immobilization of Single-atom Au on Cerium Dioxide for low-temperature Removal of C1 Gaseous Contaminants, J. Hazard. Mater., (2020), 392, 122511.
[4] X. Chen, Q. Li, J.-J. Li, J. Chen, H.-P. Jia, Modulating charge separation via in situ hydrothermal assembly of low content Bi2S3 into UiO-66 for efficient photothermocatalytic CO2 reduction. Appl. Catal. B: Environ., 2020, 270, 118915.
[5] X. Chen, J.-J. Li, S.-C. Cai, J. Chen, H.-P. Jia, Two-step pyrolytic engineering of carbon-doped Co3O4 with rich defects for efficient lowtemperature CO oxidation. J. Mater. Chem. A, 2020, 8, 6619.
[6] 李娟娟,张梦,蔡松财,于恩琪,陈儆,贾宏鹏. 光热催化氧化VOCs的研究进展. 环境工程,2020,38(1):13-20.
[7] E.-Q. Yu, J. Chen, H.-P. Jia, Enhanced light-driven photothermocatalytic activity on selectivelydissolved LaTi1−xMnxO3+δ perovskites by photoactivation, J. Hazard. Mater., 2020, 399, 122942.
[8] D.-X. Yan, J. Chen, H.-P. Jia, Temperature-Induced Structure Reconstruction to Prepare a Thermally Stable Single-Atom Platinum Catalyst, Angew. Chem. Int. Ed., 2020, 59, 1 – 7.
[9] J. Chen, W.-J. Xu, M.-Z. Jiang, J. Chen, H.-P. Jia, Polyoxometallate functionalizing CeO2 via redox-etching precipitation to synergistically catalyze oxidation of gaseous chlorinated pollutants: from lab to practice, Appl. Catal. B: Environ., 2020, 278, 119263.
[10]J.-J. Li, M. Zhang, J. Chen, H.-P. Jia, The effect of noble-metal deposition routes on the characteristics and photocatalytic activity of M-TiBi1.9%O2(M= Pt and Pd), Top. Catal., 2020. (accepted)
[11] X. Chen, Q. Li, M. Zhang, J.-J. Li, S.-C. Cai, J. Chen, H.-P. Jia, MOF-Templated Preparation of Highly Dispersed Co/Al2O3 Composite as the Photothermal Catalyst with High Solar-to-Fuel Efficiency for CO2 Methanation. ACS Appl. Mater. Interfaces, 2020, 12, 39304-39317.
[12] J.-J. Li, M. Zhang, J. Chen, H.-P. Jia, Zero-degree photochemical synthesis highly dispersed Pt/TiO2 for enhanced photocatalytic hydrogen generation. J.  Alloys Compd., 2020, 489, 156634.
[13] S.-C. Cai, M. Zhang, J.-J. Li, J. Chen, H.-P. Jia, Enchoring Single-Atom Ru on CdS with Enhanced CO2 Capture and Charge Accumulation for High Selectivity of Photothermocatalytic CO2 Reduction to Solar Fuels, Solar RRL, 2020, 2000313, 1-10.
[14] W.-J. Xu, X. Chen, J. Chen, H.-P. Jia,Bimetal oxide CuO/Co3O4 derived from Cu ions partly-substituted framework of ZIF-67 for toluene catalytic oxidation, J. Hazard. Mater., 2020, 403, 123869.
 
2019
[1] 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., 2019, 475, 312-324.
[2] J. Chen, X. Chen, D.-X. Yan, M.-Z Jiang, W.-J. Xu, H. Yu, H.-P. Jia, A facile strategy of enhancing interaction between cerium and manganese oxides for catalytic removal of gaseous organic contaminants, Appl. Catal. B: Environ., 2019, 250, 396-407.
[3]X. Chen, S.-C. Cai, E.-Q. Yu, J.-J. Li, J. Chen, H.-P. Jia, Photothermocatalytic performance of ACo2O4 type spinel with light-enhanced mobilizable active oxygen species for toluene oxidation, Appl. Surf. Sci., 2019, 484, 479–488.
[4] J.-J. Li, S.-C. Cai, X. Chen, D.-X. Yan, J. Chen, H.-P. Jia, Engineering rGO nanosheets-adsorption layer supported Pt nanoparticles to enhance photo-thermal catalytic activity under light irradiation, J. Mater. Chem. A, 2019. 7, 11985-11995.
[5]J. Chen, M.-Z. Jiang, W.-J. Xu, J. Chen, Z.-X. Hong, H.-P. Jia , Incorporating Mn Cation as Anchor to Atomically Disperse Pt on TiO2 for Low-temperature Removal of Formaldehyde, Appl. Catal. B: Environ., 2019, 259, 118013.
[6]Z. Xu, J. Chen, S.-C. Cai, D.-X. Yan, X. Chen, W.-J. Xu, J. Chen, H.-P. Jia, Biphasic Ag block assisting electron and energy transfer to facilitate photothermal catalytic oxidation of HCHO over manganese oxide, Materials Today Energy 2019, 14, 100343.
 
2018
[1] X. Chen, X. Chen, S.-C. Cai, J. Chen, W.-J. Xu, H.-P. Jia, J. Chen, Catalytic combustion of toluene over mesoporous Cr2O3-supported platinum catalysts prepared by in situ pyrolysis of MOFs. Chem. Eng. J., 2018, 334, 768-779.
[2] J. Chen, X. Chen, X. Chen, W.-J. Xu, Z. Xu, H.-P. Jia, J. Chen, Homogeneous Introduction of CeOy into MnOx-based Catalyst for Oxidation of Aromatic VOCs. Appl. Catal. B., 2018, 224, 825-835.
[3] W.-J. Xu, X. Chen, X. Chen, S.-C. Cai, J. Chen, Z. Xu, H.-P. Jia, J. Chen, Superhydrophobic titania nanoparticles for fabrication of paper-based analytical devices: an example of heavy metals assays. Talanta, 2018, 181, 333-339.
[4] X.Chen, X.Chen, E.-Q.Yu, S.-C. Cai, H.-P. Jia, J.Chen, P. Liang,In situ pyrolysis of Ce-MOF to prepare CeO2 catalyst with obviously improved catalytic performance for toluene combustion. Chem. Eng. J., 2018, 344, 469-479.
[5] J. Chen, D.-X. Yan, Z. Xu, X. Chen, X. Chen, W.-J. Xu, H.-P. Jia, J. Chen, A novel redox precipitation to Synthesize Au-doped alfa-MnO2 with High dispersion toward low-temperature oxidation of formaldehyde, Environ. Sci. Technol., 2018, 52, 4728-4737.
[6] J.-J. Li, S.-C. Cai, E.-Q. Yu, B. Weng, X. Chen, J. Chen, H.-P. Jia, Y.-J. Xu, Efficient infrared light promoted degradation of volatile organic compounds over photo-thermal responsive Pt-rGO-TiO2 composites, Appl. Catal. B: Environ., 2018, 233, 260-271.
[7] X. Chen, J.-J. Li, X. Chen, S.-C. Cai, E.-Q. Yu, J. Chen, H.-P. Jia, MOF-Templated Approach for Hollow NiOx/Co3O4 Catalysts: Enhanced Light-Driven Thermocatalytic Degradation of Toluene, ACS Appl. Nano Mater., 2018, 1, 2971-2981.
[8] J.-J. Li, E.-Q. Yu, S.-C. Cai, X. Chen, J. Chen, H.-P. Jia, Y.-J. Xu,, Noble metal free, CeO2/LaMnO3 hybrid achieving efficient photo-thermal catalytic decomposition of volatile organic compounds under IR light, Appl. Catal. B: Environ., 2019, 140, 141-152.
[9] S.-C. Cai, J.-J. Li, E.-Q. Yu, X. Chen, J. Chen, H.-P. Jia, Strong Photothermal Effect of Plasmonic Pt Nanoparticles for Efficient Degradation of Volatile Organic Compounds under Solar Light Irradiation. ACS Appl. Nano Mater., (2018), 1, 6368-6377.
 
2017
[1] J. Chen, X Chen, W.-J. Xu, Z. Xu, J.-Z. Chen, H.-P. Jia, J. Chen, Hydrolysis Driving Redox Reaction to Synthesize Mn-Fe Binary Oxides as Highly Active Catalysts for the Removal of Toluene. Chem. Eng. J., 2017, 330, 281-293.
[2] J.-J. Li, B. Weng, S.-C. Cai, J. Chen, H.-P. Jia, Y.-J. Xu, Efficient promotion of charge transfer and separation in hydrogenated TiO2/WO3 with rich surface-oxygen-vacancies for photodecomposition of gaseous toluene.  J. Hazard. Mater., 2018, 342, 661-669.
[3] J.-J. Li, S.-C. Cai, Z. Xu, X. Chen, J. Chen, H.-P. Jia, J. Chen, Solvothermal syntheses of Bi and Zn co-doped TiO2 with enhanced electron-hole separation and efficient photodegradation of gaseous toluene under visible-light. J. Hazard. Mater,2017,325,261–270.

2016
[1]  J. Chen, X. Chen,  Z. Xu, W.-J. Xu, J.-J. Li,  H.-P. Jia, J. Chen, Syntheses of Hierarchical MnO2 via H2O2 Selectively Reducing KMnO4 for Catalytic Combustion of Toluene. ChemistrySelect,2016, 1 (13), 4052-4056.

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最小化 最大化

恭喜陈曦同学获得2018年博士研究生国家奖学金 2018-11-20

欢迎中国科学院副院长、中国科学院大学校长李树森院士,厦门市李辉跃副市长莅临环境功能材料与气态污染物控制研究组指导工作 2018-10-17

热烈祝贺李娟娟博士的Noble metal free, CeOM2/LaMnO3 hybrid achieving efficient photo-thermal catalytic decomposition of volatile organic compounds under IR light研究论文被Applied Catalysis B: Environmental杂志接受 2018-09-01

欢迎吴宪爽、钟奇成、张梦、姜明珠加入本研究组开展研究工作 2018-07-02

恭喜陈曦同学获"三好学生"荣誉称号 2018-07-02

热烈祝贺研究组博士生陈希的MOF-Templated Approach for Hollow NiOx/Co3O4 Catalysts: Enhanced Light-Driven Thermocatalytic Degradation of Toluene研究论文被ACS Applied Nano Materials杂志接受 2018-05-24

热烈祝贺李娟娟博士的Efficient infrared light promoted degradation of volatile organic compounds over photo-thermal responsive Pt-rGO-TiO2 composites研究论文被Applied Catalysis B: Environmental杂志接受 2018-04-08

热烈祝贺陈金博士的A novel redox precipitation to Synthesize Au-doped alfa-MnO2 with High dispersion toward low-temperature oxidation of formaldehyde的研究论文被Environmental Science & Technology杂志接受 2018-03-28

热烈祝贺研究组博士生陈曦的In situ pyrolysis of Ce-MOF to prepare CeO2 catalyst with obviously improved catalytic performance for toluene combustion的研究论文被Chemical Engineering Journal杂志接受 2018-03-19

热烈祝贺许文建Superhydrophobic titania nanoparticles for fabrication of paper-based analytical devices: an example of heavy metals assays的研究论文被Talanta杂志接受 2018-1-18

热烈祝贺陈金博士的Homogeneous Introduction of CeOy into MnOx-based Catalyst for Oxidation of Aromatic VOCs的研究论文被Applied Catalysis B杂志接受 2017-11-15

热烈庆祝研究组博士生陈曦的Catalytic combustion of toluene over mesoporous Cr2O3-supported platinum catalysts prepared by in situ pyrolysis of MOFs的研究论文被Chemical Engineering Journal杂志接受 2017-10-16

热烈祝贺李娟娟博士的Efficient promotion of charge transfer and separation in hydrogenated TiO2/WO3 with rich surface-oxygen-vacancies for photodecomposition of gaseous toluene研究论文被Journal of Hazardous Materials杂志接受 2017-9-7
 
热烈祝贺陈金博士的Hydrolysis Driving Redox Reaction to Synthesize Mn-Fe Binary Oxides as Highly Active Catalysts for the Removal of Toluene研究论文被Chemical Engineering Journal杂志接受 2017-7-26
 
恭喜陈金博士荣获2017年中国材料大会环境工程材料分会优秀报告奖 2017-7-13
 
热烈祝贺李娟娟博士的Solvothermal syntheses of Bi and Zn co-doped TiO2 with enhanced electron-hole separation and efficient photodegradation of gaseous toluene under visible-light研究论文被Journal of Hazardous Materials杂志接受  2016-12-1
 
欢迎福州大学特聘教授徐艺军老师应邀来研究所做学术报告 2016-11-21
 
恭喜研究组助研陈金博士"Syntheses of Hierarchical MnO2 via H2O2 Selectively Reducing KMnO4 for Catalytic Combustion of Toluene"工作在Chemistry Select上发表  2016-11-18
 
秋游杭州   2016-11-8
 
 研究组师生参加第十届全国环境催化和环境材料学术会议 2016-11-8
 
康塔仪器厂商培训讲座  2016-10-28
 
欢迎于恩琪同学到本研究组攻读硕士学位 2016-9-1
 
欢迎陈希同学到本研究组攻读博士学位 2016-8-8
 
欢迎武汉理工大学林景扬同学加入本研究组进行为期一个月的暑期实习生活 2016-7-20
 
2015级研究生蔡松财同学正式加入研究组开展科研工作 2016-7-11
 
欢迎厦门大学菁英班陈嘉梓同学加入本研究组进行暑期实践 2016-6-28
 
研究所十周年庆创新文化大赛参赛作品 2016-6-27
呵护地球 院所印象 十年所庆


 

研究方向 研究方向

最小化 最大化
  • 贵/非贵金属催化材料研发及其催化性能研究
  • 新型光催化材料制备及其性能研究
  • 吸附净化材料研发及其净化性能研究
  • 气态有机污染物(VOCs)控制技术研发及应用

仪器资源 仪器资源

最小化 最大化