Introduction
Junting Feng, born in January 1984, professor, Ph.D. supervisor in Beijing University of Chemical Technology (BUCT), selected as National Outstanding Youth in 2020. In 2010, he joined the State Key Laboratory of Effective Utilization of Chemical Resources, Beijing University of Chemical Technology, and is currently the Youth member of the National Industrial Catalytic Industry Technology Innovation Strategic Alliance, the assistant president of Quzhou Resources Chemical Innovation Research Institute and the director of the Low Carbon and Catalysis Research Institute. In recent years, the research mainly focuses on industrial catalyst design and process coupling strengthening, and has undertaken national key research and development projects, National Natural Science Foundation Youqing Project, National Natural Science Foundation project, Beijing Natural Science Foundation project, as well as Sinopec, petrochina, Shaanxi Coal Group, Qinghai Salt Lake, Luxi Chemical Industry and many other enterprises commissioned development projects. Published more than 80 papers in the first/communication/joint communication, Including AIChE J. (10 papers), Angew. Chem. Int. Ed., Chem.Soc. Rev., Fundamental Research (sponsored by the National Natural Science Foundation of China), ACS Catal. (10 papers), Appl. Catal. B: Environ., J. Catal. (14 papers), Chem. Eng. Sci., Chem. Eng. J., Chem. Sci., Chem Catal., 8 patents authorized by the first inventor.
Research
Reaction engineering, Chemical process coupling, Novel catalytic materials. Chemical intermediates are not only the products of basic raw materials, but also the raw materials of downstream chemical products. Therefore, developing its low-carbon synthesis process is highly significant.To address these requirements, new process coupling and interface engineering strategies are proposed to achieve low carbon synthesis of key chemical intermediates through reaction-reaction and reaction-heat transfer coupling. (1) Construct a new strategy of adjacent multi-interface active sites to efficiently conjugate hydrogenation-amination, hydrogenation-etheration and dehydrogenation-reduction reactions, thereby realizing the sequential synthesis of oxygen/nitrogen-containing organic intermediates. (2) A novel catalytic coupling dehydration method is proposed, which smartly integrated the classic low-temperature water-gas shift reaction with high-energy consuming solid material dehydration. Under the catalysis of interfacial metal cations, the low-energy preparation of anhydrous chlorides which is a typical inorganic salt intermediate is achieved. (3) A new method for constructing multi-scale thermal interface was created to reduce the thermal management energy consumption of exothermic hydrogenation of acetylene and anthraquinone by cooperatively controlling the reaction heat and heat transfer in the catalytic micro-region.
Publications
Fengyu Zhang, Yijun Zhang, Jiayi Wang, Qian Wang, Haoxiang Xu, Dianqing Li, Junting Feng,and Xue Duan, Thermal Effect Management via Entropy Variation Strategy to Improve the Catalyst Stability in Acetylene Hydrogenation, Angew. Chem. Int. Ed. 2024, e202412637 Zhexi Gao, Xinxin Zhao, Huifang Wu, YangZhao, HaoranMa, Qian Wang, DianqingLi , Junting Feng, Tailoring the d-band centers enables NiM alloy to be multifunctional site for tandem reductive amination, AIChE J. 2024;70:e18489. Zhexi Gao, Haoran Ma, Qian Wang, Dianqing Li, Junting Feng , Xue Duan, Structure Engineering of Layered Double Hydroxides (LDHs) for Heterogeneous Catalysis, Yang Zhao , Qian Wang , Huifang Wu , Lirong Zheng , Zhexi Gao ,Xuanlin Guo , Xingzhong Cao , Dianqing Li , Junting Feng, Boosting primary amines renewable tandem synthesis viadefect engineering of NiCo alloy, AIChE J. 2024;70:e18446 Jiayi Wang, Haoxiang Xu, Jianguo Wu, Fengyu Zhang, Chunxia Che, Jiqin Zhu, Junting Feng, DaojianCheng, Rational Design of Alloy Catalysts for Alkyne Semihydrogenation via Descriptor-Based High-Throughput Screening, ACS Catal. 2024, 14, 1220−1230 Yujing Fua, Jinzhao Wanga, Yaqing Zanga, Meng Donga, Yixie Wanga, Jingyi Guoa, Fenglin Huac, Ming Xua,b, Hong Yana, Shengting Lic, Zhen Mac, Junting Fenga,b, Xue Duan, A new catalytic dehydration strategy by coupling chloride hydrate dehydration with water–gas shift reaction, Chemical Engineering Science 285 (2024) 119542 Fengyu Zhang, Huifang Wu, QianWang, DianqingLi, Junting Feng, Construction of core–shell Co@CuCo/Al2O3 catalyst to boost the low-temperature hydrogenation of 5-hydroxymethylfurfural, AIChE J. 2024;70:e18289. Zhexi Gao, Luoyu Cai, Haoran Ma, Yang Zhao, Huifang Wu, Haonan Liu, Qian Wang, Dianqing Li, JuntingFeng, Dual Scale Hydrogen Transfer Bridge Construction for Biomass Tandem Reductive Amination, ACS Catal. 2023, 13, 12835−12847 Qian Wang, Wei Lva, Yang Zhao, Xingxing Zhang, Fengyu Zhang, Mingyu Gao, Dianqing Li, Junting Feng, Construction of a permeable metal-support interface for glycerol oxidation by the topological transformation of 2D precursor, Chemical Engineering Journal 470 (2023) 144172 Mingyu Gao, Xinyi Zhang, Xintao Li, Qian Wang, Junting Feng, Dianqing Li, Bifunctional photocatalyst with tailored interface scale for cooperative glycerol selective oxidation and H2 evolution, AIChE J. 2023;69(8):e18112 He Yu, Baoai Fu, Fengzhi Fu, Yanfei Zhu, Yanan Liu, Junting Feng, Dianqing Li, Construction and engineering of an interfacial structure in a Cux/FeMgOy catalyst for the photoreduction of CO2 to ethylene, Catal. Sci. Technol., 2023, 13, 2458–2468 Ning Li, Shaoxia Weng, Alan J. McCue, Yuanfei Song, Yufei He, Yanan Liu, Junting Feng, Dianging Li, Metal-Organic Framework-Derived Ni-S/C Catalysts for Selective Alkyne Hydrogenation, ACS Appl. Mater. Interfaces 2023,15,48135−48146 He Yu, Yuanfei Song, Tianci Zheng, AlanJ. McCue, LirongZheng, Weipei Chen, Junting Feng, Zhe Zhang, YananLiu, DianqingLi, Fabrication of stable and selective non-noble metal catalysts for selective alkyne hydrogenation, AIChE J. 2024;70:e18334
|
