Achievement transformation project of central universities' basic scientific research business expenses: Study on the desorption law and Characteristics of VOCs adsorption materials, No.2019KZ11, January 2019 -- December 2020, 1, under research.
General project of National Natural Science Foundation of China: Cerium manganese Foundation is an organic skeleton material (MOFs) that catalyzes the evolution of oxygen vacancy of ethyl benzene and ethyl acetate, No.51578245, completed from January 2016-December 2019.
General project of National Natural Science Foundation of China: Study on electron transfer of cerium based catalyst in the evolution of oxygen-related parameters in toluene oxidation No.51878293, January 2019 -- December 2022, under development.
National key research and development sub-project: directional design/modification of adsorbent for organic pollutants in desulfurization zones and its adsorption control technology 2018YFB0605203-5 May 2018 - April 2021, under development.
Key Project of Guangdong Natural Science Foundation: Evolution of oxygen vacancy of cerium manganese Foundation (MOFs) in ethylbenzene oxide and ethyl acetate, No.2016A030311003, completed from June 2016 to June 2019.
Scientific Research Project (Guangdong Provincial Department of Science and Technology) : Guangdong Ziyuan Environmental Protection Co., LTD. Science and Technology Commissioner workstation E8180130august 2017 -- December 2019, concluded.
Project (horizontal) : Fermentation exhaust gas engineering treatment technical service, D9182830, 2018-08-03 to 2018-08-22, concluded.
Xueqing Zhu, Hui He, Yanxia Li, Haoyuan Wu, Mingli Fu*, Daiqi Ye, Junliang Wu, Haomin Huang, Yun Hu, Xiaojun Niu. CeO2-Supported Pt Catalysts Derived from MOFs by Two Pyrolysis Strategies to Improve the Oxygen Activation Ability. Nanomaterials.2020,10(5),983.
Qian Zhang, Yiwen Jiang, Jingheng Gao , Mingli Fu*, Sibei Zou, Yanxia Li,Daiqi Ye. Interfaces in MOF-Derived CeO2–MnOx Composites as High-Activity Catalysts for Toluene Oxidation: Monolayer Dispersion Threshold. Catalysts.2020,10(6),681.
Jingheng,Gao;Yifei,Xiong;Qian,Zhang;Yiwen,Jiang;Jing,Wang;Sibei,Zou;Mingli,Fu*;Junliang,Wu;Yun,Hu;Daiqi Ye. 3D geometric modeling analysis of contact probability effect in carbon black oxidation over MnOx-CeO2 catalysts.Chemical Engineering Journal.2020,398(15),125448.
Jiang, Y.;Gao, J.;Zhang, Q.;Liu, Z.;Fu, M*.;Wu, J.;Hu, Y.;Ye, D.Enhanced oxygen vacancies to improve ethyl acetate oxidation over MnOx-CeO2 catalyst derived from MOF template.Chemical Engineering Journal.2019,371,78-87.
Lin, X.; Li, S.; He, H.; Wu, Z.; Wu, J.; Chen, L.; Ye, D.; Fu, M*. Evolution of oxygen vacancies in MnOx-CeO2 mixed oxides for soot oxidation. Appl. Catal. B: Environ., 2018, 223, 91-102(Highly cited).
He, H.; Lin, X.; Li, S.; Wu, Z.; Gao, J.; Wu, J.; Wen, W.; Ye, D.; Fu, M*. The key surface species and oxygen vacancies in MnOx(0.4)-CeO2 toward repeated soot oxidation. Appl. Catal. B: Environ., 2018, 223, 134-142(Highly cited).
Lin, X.; Fu, M*.; He, H.; Wu, J.; Chen, L.; Ye, D.; Hu, Y.; Wang, Y.; Wen, W. Synthesis of MnOx-CeO2 using metal-organic framework as sacrificial template and its performance in the toluene catalytic oxidation reaction. Acta. Phys. Chim. Sin. 2018, 34(6), 719-730
He, H.; Fu, M*.; Lin, X.; Ye, D.; Hu, Y.; Wen, W. Catalytic Oxidation of Toluene over Metal-Organic Frameworks with Immobilized Pt Nanoparticles[A]. 8th Japan-China Workshop on Environmental Catalysis and Eco-Materials[C]. Tsukuba, Japan, 2017.(Oral report)
Fu, M*.; He, H.; Lin, X.; Ye, D.; Hu, Y.; Wen, W. Functionalization of metal-organic frameworks by immobilizing Pt nanoparticles towards toluene oxidation[A]. 8th Japan-China Workshop on Environmental Catalysis and Eco-Materials[C]. Tsukuba, Japan, 2017.(Wall paper)
He, H.; Lin, X.; Li, S.; Wu, Z.; Wu, J.; William, W.; Ye, D.; Fu, M*.The Surface Active Species and Oxygen Vacancies in MnOx(0.4)-CeO2 towards Repeated Soot Oxidation[A]. Proceedings of The 9th International Conference on Environmental Catalysis 2016[C]. Newcastle, NSW Australia, 2016.(Oral report)
Lin, X.; Wu, Z.; Fu, M.*; Ye, D. Soot Combustion over CeO2-MnOx Mixed Oxides: Evolution of Surface Oxygen Vacancies[A]. Proceedings of The 9th International Conference on Environmental Catalysis 2016[C]. Newcastle, NSW Australia, 2016.(Oral report)
Lin X, Wu Z, Wu W, Li D, Ye D, Fu M.* Soot Catalytic Oxidation over CeO2-CuO Catalysts: In Situ Raman Study of Oxygen Vacancies[A]. Proceedings of The 20th National Conference on Rare earth Catalysis of China[C].Jiangsu: Nanjing University,2015. (Great Wall newspaper).