Name: Shen Jiating

Gender: Male

Job title:Associate Professor

Email Address: shenjiating@ncu.edu.cn

Education and Work Experience ：

2025 - present: College of Chemistry and Chemical Engineering, Nanchang University,Associate Professor.

2004 - 2024: College of Chemistry and Chemical Engineering, Nanchang University, Lecturer.

2014.09~2019.07: Nanchang University, doctoral degree

2001.09~2003.07: China West Normal University, master degree

1997.09~2001.07: Gannan Normal University, bachelor degree

Teaching：

undergraduate courses such as "Physical Chemistry", "Chemical Technology", " University Chemistry", "Physical Chemistry Experiment" and " University Chemistry Experiment".

Research fields:

Physical Chemistry, Industrial Catalysis, Heterogenous Catalysis, Environmental Catalysis, Surface Chemistry

Research projects：

National Natural Science Foundation of China, 22572082, Fabrication of High-Performance Solid Solution/Pyrochlore loaded Cu Catalysts for on-board Methanol Steam Reforming to Produce Hydrogen,2026-01 to 2029-12, 500,000 yuan, in research, participate.

National Natural Science Foundation of China,22376090, Design of Novel and Efficient A₂B₂O₇ Catalytic Materials with Abundant Surface Defects for Soot Particulate Combustion,2024-01 to 2027-12, 500,000 yuan, in research, participate.

National Natural Science Foundation of China, 22362026, Preparing Novel Highly Efficient CuO Catalytic Materials for Soot Combustion for Diesel Cars,2024-01 to 2027-12, 320,000 yuan,in research, chair.

National Natural Science Foundation of China, 22265020, Multi-stage Porous MOF Controllable Limited Range Metal Nanoparticles to Construct Highly Efficient Unsaturated Aldehyde Selective Hydrogenation Catalyst, 2023-01 to 2026-12, 330,000 yuan, in research, participate.

National Natural Science Foundation of China, 22261035, Preparation of Water-soluble Near-infrared Superoxide Radical Photosensitizer and Theoretical Exploration of Its Molecular Design, 2023-01 to 2026-12, 330,000 yuan, in research, participate.

Awards and Honors：

Representative papers and patents：

Ming Gong^a,#, Shijing Zhang^a,#,*, Jiamei Ma^a, Jiating Shen^a,*, Yufeng Yang^a, Hong Tang^a, Xianglan Xu^a, Junwei Xu^b, Xiuzhong Fang^a, Xiang Wang^a,*, Synthesize reactive Co₃O₄/Nd₂Zr_2-xCe_xO₇ catalysts via tuning the support phase structure and oxygen defect abundance for soot combustion: the dual-optimization strategy of Ce bulk doping and Co surface modification, Inorganic Chemistry，2025,Online.

Shijing Zhang^a, Junwei Xu^a,b, Zekai Xu^a, Ping Wang^a, Yufeng Yang^a, Xianglan Xu^a, Jiating Shen^a, Xiuzhong Fang^a, Xiang Wang ^a,*,Design of non-noble metal A₂B₂O₇ compounds to catalyze soot particulate combustion: Deciphering the inherent factors contributing to the excellent activity with the integration of experiments and DFT calculations,Chemical Engineering Journal,2025, 503,158673.

Shijing Zhang ^a, Ping Wang^a, Zekai Xu^a, Ming Gong^a, Junhua Cao^a, Jiating Shen^a, Xiuzhong Fang^a, Xianglan Xu^a, Junwei Xu^b,*, Xiang Wang^a,*,Insights into the exceptional support phase effect on Ag/Sm₂Ce₂O₇: Modulating Ag distribution and Ag-support interaction to construct reactive soot oxidation catalysts,Journal of Catalysis,2025, 442,115893.

Shijing Zhang,‡ Xiaohui Feng,‡ Zekai Xu, Yuting Li, Ping Wang, Jiating Shen, Junwei Xu, Xianglan Xu,Xiuzhong Fang and Xiang Wang *,The controlled engineering of surface oxygen defects on Bi₂Zr₂O₇ compounds for catalytic soot combustion by adjusting the preparation methods, Phycical Chemistry Chemical Physics, 2024, 26, 974-984.

Xiuzhong Fang^a,*, Lei Mao^a, Luoji Xu^a, Jiating Shen^a, Junwei Xu^a, Xianglan Xu^a, Xiang Wang^a,*, Ni-Fe/La₂O₃ bimetallic catalysts for methane dry reforming: Elucidating the role of Fe for improving coke resistance. Fuel, 2024, 357, 129950.

Yuting Li, Shijing Zhang, Ping Wang, Jiating Shen, Xianglan Xu, Junwei Xu, Xiuzhong Fang, Zekai Xu, Zhimei Li *, Xiang Wang*，Pd-Promoted Bi₂Zr₂O₇ Pyrochlore for Soot Particulate combustion: the Impact of Pd Distributing Location and Valence State on the Reactivity，Molecular Catalysis, 2024, 553, 113773.

Xusheng Zhong,^# Junwei Xu,^*,# Shiyu Wang, Rumeng Ouyang, Jiating Shen, Xiuzhong Fang, Xianglan Xu, and Xiang Wang*,Comparing BaZrO₃ Perovskite and La₂Zr₂O₇ Pyrochlore for Oxidative Coupling of Methane (OCM): The Importance of Basic Sites vs Oxygen Vacancies, Journal of Physical Chemistry Letters, 2024,15,1890-1898.

Shijing Zhang, Junwei Xu, Zekai Xu, Yuting Li, Ping Wang, Lu Xiao, Jiating Shen, Xiuzhong Fang, Xianglan Xu, and Xiang Wang*,Decoding the Reactivity Enhancement of Ln₂Ce₂O₇ Compounds (Ln = Yb, Y, Tb, and Gd) for Soot Combustion: The Remarkable Contribution of Variable Valence A-Sites, Inorganic Chemistry，2024, 63, 6798-6812.

Ping Wang^a,1, Shijing Zhang^a,1, Zekai Xu^a,1, Huili Xu^a, Jie Chen^a, Shizheng Liu^a, Yuting Li^a, Jiating Shen^a, Junwei Xu^a, Xiuzhong Fang^a, Olga E. Lebedeva^b, Xianglan Xu^a, Xiang Wang^a,*, Fabrication of porous and highly defective CeO2-based catalysts for soot combustion with the strategy of soft-template addition and matrix doping by multiple rare earth elements, Catalysis Today ，2024,437,114765.

Jiating Shen;Xiaohui Feng; Rui Liu; Xianglan Xu; Cheng Rao; Jianjun Liu; Xiuzhong Fang; Chao Tan; Youchang Xie; Xiang Wang,Tuning SnO₂ surface with CuO for soot particulate combustion: The effect of monolayer dispersion capacity on reaction performance,Chinese Journal of Catalysis, 2019, 40(6): 905-916.