Professor, Doctoral Supervisor, College of Chemistry
Email:lidq@mail.buct.edu.cn
Office: 231 Wuji Building
Lab: State Key Laboratory of Chemical Resource Engineering
Enjoy the special expertallowance of the State Council
Director of Beijing Engineering Research Center for Hierarchical Catalytic Materials
Research Interests
Preparation chemistry of novel catalytic materials and inorganic functional materials with supramolecular structure
Catalytic materials
Our group researched on the preparation of spherical alumina and alumina-based composite oxides. Two new methods named in-situ polymerization template method and reaction coupled template method have been invented to synthesize a series of spherical alumina and alumina-based composite oxides, which have high specific surface, uniform pore distribution and great thermal stability. Moreover, our group firstly proposed an in-situ method to synthesize LDHs precursor in the pores and on the surfaces of alumina supports. Based on the lattice orientation effect and the facilitating roles to the dispersion and facet of active metals of LDHs precursor, a series of highly dispersed and stably dispersed catalysts for selective hydrogenation or Oxidation were prepared. Typical catalysts has been used in industrial scale.
(2) Inorganic functional materials
Based on the structure properties of layered double hydroxides (LDHs), especially interchangeability and uniform distribution of interlayer anion (guest) located in the interlayer, our group have synthesized a series of novel organic-inorganic hybrid pigments, selective IR absorption materials and antiaging materials by introducing functional organic guests into the interlayer, realizing the innovation of composition and structure of Mg based LDHs. Besides, new technologies of separate nucleation and aging steps, supramolecular assembly, surface modification and inorganic-organic compositionare also proposed, realizing the key technology innovation of functional material preparation. Also, our group makes efforts to fabricate high-performance gas sensing materials based on metal oxide semiconductors. A series of semiconductor gas sensing materials were prepared by controlling the composition and structure of metal oxides and developing several novel preparation methods.
Biography
Education & work experience
Beijing Institute of Chemical Technology, bachelor (1979.9-1983.7)
Liming Research Institute of Chemical Industry, Former Ministry of Chemical Industry, work (1983.8-1986.8)
Beijing Institute of Chemical Technology, master (1986.9-1989.7)
Liming Research Institute of Chemical Industry, Former Ministry of Chemical Industry, work (1989.8-1998.1)
Tianjin university, doctor (1998.2-2001.8)
Beijing university of chemical technology, post-doctoral (2001.9-2003.5)
Beijing university of chemical technology, work (2001.9-to date)
Awards & honors
National Technical Invention Award (Second Class), First Contributor
National Technical Invention Award (Second Class), Second Contributor
Beijing Science and Technology Prize (Second Class), First Contributor
Prize (Second Class) for Science and Technology Progress of China Petroleum and Chemical Industry Federation, First Contributor
Beijing Science and Technology Prize (Second Class), Second Contributor
Projects & Funding
Key Projects of National Natural Science Foundation of China
Key Projects of Beijing Natural Science Foundation
National Key Technology Research and Development Program of China during the “10th Five-Year Plan
National "Eleventh Five-Year" scientific and technological support plan subject
National Key Research and Development Program of China
National Major Instrument Development Plan Project
Publications
More than 200 papers included by SCI and EI were published in important journals of chemistry and chemicalengineering, 76 national invention patents and 5 PCT were authorized. Based on the research results of new catalytic materials and supramolecular structure inorganic functional materials, eight sets of industrial devices were established.
Yanan Liu, Shaoxia Weng, Alan J. McCue, Baoai Fu, He Yu, Yufei He, Junting Feng, Dianqing Li*, Xue Duan. AIChE Journal, 2023, 69 (2): e17874.
Baoai Fu, Alan J. McCue, Yanan Liu*, Shaoxia Weng, Yuanfei Song, Yufei He, Junting Feng, Dianqing Li*. ACS Catal. 2022, 12, 607−615.
Yuanfei Song, Shaoxia Weng, Fan Xue, Alan J. McCue*, Lirong Zheng, Yufei He, Junting Feng, Yanan Liu*, Dianqing Li*. ACS Catal. 2023, 13, 3, 1952–1963.
Yanan Liu, Alan J. McCue*, Dianqing Li*. ACS Catal.2021, 11, 15, 9102–9127.
Yanan Liu, Baoai Fu, Fengzhi Fu, Yufei He, Dianqing Li*. Chemical Engineering Science 2022, 260, 117852.
Xiumin Li, Hongjin Bai, Qian Wang, Yang Zhao, Junting Feng*, Dianqing Li*. ACS Catal. 2022, 12, 12, 7357–7367
Yanan Liu, Fengzhi Fu, Alan McCue*, Wilm Jones, Deming Rao, Junting Feng*, Yufei He, Dianqing Li*. ACS Catal. 2020, 10, 24, 15048–15059.
Shuai Chen, Tianxing Yang, Hao Lu, Yanan Liu, Yufei He*, Qiang Li, Junxian Gao, Junting Feng, Hong Yan, Jeffrey T. Miller, and Dianqing Li*. ACS Catal. 2022, 12, 24, 15696–15706
Mingyu Gao, Xinyi Zhang, Xintao Li, Qian Wang, Junting Feng*, Dianqing Li*. AIChE J. 2023, 69: e18112.
Shouli Bai, Shiyu Jia, Yingying Zhao, Yongjun Feng, Ruixian Luo, Dianqing Li*, Aifan Chen. Dalton Transactions, 2023, 52 (17): 5760-5770.