Leixiaodong头像

Leixiaodong

Professor

Research direction: Applied Chemistry

100029

Education: Ph. D
  • Department: State Key laboratory of Chemicale Resource Engineering
  • ORCID: 0000-0001-5818-9561
  • DBLP:

10 Access

  • Email: leixd@buct.edu.cn
  • Office : Room 304A, Advanced Innovation Center
  • Introduction
  • Research
  • Teaching
  • Funding
  • Publications
  • Awards
  • Honor Reward
  • Admission

Introduction

Born in 1973, a native of Hubei, he is a professor and doctoral supervisor at the State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology. He graduated from Beijing University of Chemical Technology in 2006 with a Ph.D. in Applied Chemistry. In 2013, he served as a visiting scholar at University College London. His main research directions include interlayer assembly chemistry and product engineering, environmental (water and soil) protection engineering and material chemistry and technology, as well as green energy storage and conversion material chemistry and technology. He has presided over more than 10 longitudinal research projects, including national supporting programs, the 863 Program, national key research and development projects, and national natural science funds; undertaken more than 20 international cooperation projects between China and Thailand, as well as school-enterprise cooperation projects. He has published more than 150 academic papers, obtained more than 50 patents, and participated in the compilation of 8 national industry standards. He has applied his research results to large-scale industrial production, presided over the construction of 8 coking desulfurization waste liquid resource recovery production lines in large enterprises such as Tangshan Iron and Steel, Shenhua Mengxi Coal Chemical, Qian Gui Tianneng, and Tiantie, and participated in the construction of 4 production lines for super-molecular layered materials with a capacity of over 1,000 tons. He has used the developed super-stable mineralization technology to carry out the improvement of over 150,000 acres of saline-alkali land and the demonstration of contaminated soil remediation. He has won 4 provincial and ministerial-level scientific and technological achievements awards, including the first prize of the China Petroleum and Chemical Industry Federation Technology Invention Award. He is a member of the Beijing Powder Technology Committee, a science and technology consulting expert in Jiangsu Province, and an editorial board member of Energy Storage and Conversion, China Molybdenum Industry, and Journal of Petrochemical Colleges and Universities. He is also a letter review expert for national and Jiangsu Provincial Science and Technology Awards, a meeting review expert for Beijing and Ministry of Water Resources Science and Technology Awards, a member of the expert group for the Ministry of Science and Technology's guideline compilation, a science and technology consulting expert in the Ministry of Agriculture and Jiangsu Province, a special commissioner for the Beijing Association for Science and Technology's Thousand People Entering Thousand Enterprises program, and a member of the Beijing Powder Technology Association.

Education

Work Experience

Social Position

Social Activities

Research

Interlayer Assembly Chemistry and Product Engineering




(2) Environmental Protection Materials and Engineering Science and Technology (Water Pollution Control, Soil Remediation)




(3) Green Energy Storage and Conversion Materials Science and Technology


Teaching

Mainly teaching undergraduate courses in inorganic chemistry, water chemistry, and physical chemistry experiments;Also participate in teaching the undergraduate course Introduction to Chemistry and the doctoral course Chemical Synthesis and Applications.


Postgraduates

Funding

Presided and presiding over more than 10 longitudinal research projects, including national supporting programs, the 863 Program, national key research and development projects, and national natural science funds; undertaken more than 20 international cooperation projects between China and Thailand, as well as school-enterprise cooperation projects.

Vertical Project

Horizontal Project

Publications

(1) L. Cao, B. Yan, R. Tao, F. Zhang, X. Lei,* Y. Wang*. Efficient treatment of imidacloprid-Cu2+ combined pollution in aqueous solution and soil by MgMnFe-layered double hydroxide activating peroxymonosulfate: Underlying synergistic mechanism. J. Hazard. Mater., 2025, 499:140329.

(2) M. Tan, J. Ge, Y. Qin, J. Luo, Y. Wang*, F. Zhang, X. Zhao, X. Lei*. The high performance of Al3+-preintercalated Cu9S5 derived from layered double hydroxide precursor in aqueous Cu-Al hybrid-ion battery. J. Energ. Chem., 2025, 109: 531–540.

(3) J. Luo, Y. Qin, M. Tan, S. Lv, F. Zhang, X. Zhao, Y. Wang,* G. R. Williams, X. Lei*. A vanadium-doped CuxO nanorod array with modulated electronic structure for enhanced aqueous energy storage. J. Mater. Chem. A, 2025, 13: 21819–21829.

(4)W. Ma, S. Diao, C. Li, Y. Wang, X. Zhao, C. Li, Z. Li*, F. Zhang, X. Lei*. Pedogenesis of coal gangue heaps in high-altitude plateau areas driven by the in-situ formation of layered double hydroxides. Environ. Technol. Inno. 2025, 971: 104145.

(5) S. Diao, W. Ma, Y. Wang*, X. Zhao, F. Zhang, X. Lei*. Synergistic effects of Ca-bentonite and in-situ layered double hydroxide formation in ameliorating saline-alkali soil. Sci. Total Environ. 2025, 38: 179084.

(6) L. Cao, X. Feng, C. Li, B. Yan, F. Zhang, X. Lei*, Y. Wang*. Influence mechanism of divalent metals in the laminates of M2+Al-layered double hydroxides on peroxymonosulfate activation reaction pathway: Radical vs nonradical. Chem. Eng. J., 2024, 499: 156014.

(7) B. Yan , D. Wang , Y. Zhao, J. Jiang , B. Wang , S. Wei , C. Li , F. Zhang , X. Lei*, Y. Wang*. Synergistic activation of peroxymonosulfate by the laminate metals of MgMnFe-layered double hydroxides for imidacloprid degradation. Sep. Purif. Technol., 2025, 354:129194.

(8) J. Luo, Y. Qin, D. Zhang, T. Dou, M. Tan, F. Zhang, X. Zhao, Y. Wang, L. Zheng*, X. Lei*. In-situ electronic modulation of ultra-high-capacity S-modified Cu/Cu2O electrodes for energy storage applications. Chem. Eng. J., 2024, 485: 149945.

(9) T. Dou, D. Song, Y. Wang*, X. Zhao, F. Zhang, X. Lei*. Hierarchical Bi/S-modified Cu/brass mesh used as structured highly performance catalyst for CO2 electroreduction to formate. Nano Res., 2024, 17(5): 3644−3652.

(10) T. Dou, J. He, S. Diao, Y. Wang, X. Zhao*, F. Zhang, X. Lei*. Dynamic reconstructuring of CuS/SnO2 -S for promoting CO2 electroreduction to formate. J. Energy Chem., 2023, 82: 497–506.

(11) C. Li, B. Yan, T. Xue, R. Tao, Z. Song, F. Qi, F. Zhang, X. Lei*, Y. Wang*. Electron transfer degradation of ciprofloxacin by peroxydisulfate intercalated MgAlFe-layered double hydroxides: Roles of laminate structure and interlayer peroxydisulfate. Sep. Purif. Technol., 2023, 312:123385.

(12) Z. Sun, Y. Wang*, T. Liu, X. Kong, T. Pan, F. Zhang, X. Lei*, X. Duan. Super-stable mineralization of Cu, Cd, Zn and Pb by CaAl-layered double hydroxide: performance, mechanism, and large-scale application in agriculture soil remediation. J. Hazard. Mater., 2023, 447: 130723.

(13) J. Ge, Y. Chen, Y. Zhao, Y. Wang,* F. Zhang, X. Lei*. Activated MoS2 by constructing single atomic cation vacancies for accelerated hydrogen evolution reaction. ACS Appl. Mater. Interfaces, 2022, 14: 26846−26857.

(14) Z. Sun, J. Ge, C. Li, Y. Wang*, F. Zhang, X. Lei*. Enhanced improvement of soda saline-alkali soil by in-situ formation of super-stable mineralization structure based on CaFe layered double hydroxide and its large-scale application.Chemosphere, 2022, 300: 134543.

(15)T. Dou, J. Du, J. He, Y. Wang*, X. Zhao, F. Zhang , X. Lei*. Sulfurization-derived Cu0–Cu+ sites for electrochemical CO2 reduction to ethanol. J. Power Sources, 2022, 533: 231393.

(16) J. Ge, D. Zhang, Y. Qin, T. Dou, M. Jiang, F. Zhang, X. Lei*. Dual-metallic single Ru and Ni atoms decoration of MoS2 for high-efficiency hydrogen production. Appl. Catal. B: Environ., 2021, 298: 120557.

(17) J. Ge, D. Zhang, J. Jin, X. Han, Y. Wang*, F. Zhang, X. Lei*. Oxygen atoms substituting sulfur atoms of MoS2 to activate the basal plane and induce the phase transition for boosting hydrogen evolution. Mater. Today Energy, 2021, 22: 100854.

(18) B. Zhu, Y. Qin, J. Du, F. Zhang, X. Lei*. Ammonia etching to generate oxygen vacancies on CuMn2O4 for highly efficient electrocatalytic oxidation of 5-hydroxymethylfurfural. ACS Sustainable Chem. Eng., 2021, 9: 11790−11797.

(19) Y. Cao, J. Ge, M. Jiang, F. Zhang, X. Lei*. Acid-etched Co3O4 nanoparticles on nickel foam: The highly reactive (311) facet and enriched defects for boosting methanol oxidation electrocatalysis. ACS Appl. Mater. Interfaces, 2021, 13: 29491−29499.

(20) X. Han, D. Zhang, Y. Qin, X. Kong*, F. Zhang, X. Lei*. Construction of Ta-Cu7S4 negative electrode for high-performance all-solid state asymmetric supercapacitor. Chem. Eng. J., 2021, 403: 126471.


Awards

(1) Complete water-saving technology for industrial steam boilers, the Second Prize of Beijing Science and Technology Award in 2005, No. 2005G-2-012;

(2) The resource recovery technology for coking desulfurization waste liquid, the First Prize of Technical Invention Award from the China Petroleum and Chemical Industry Federation in 2013, Award No. 2013FM0041-1-1;

(3) Fundamentals of Intercalation Chemistry and Product Engineering, the First Prize of the Technical Progress Award from the China Petroleum and Chemical Industry Federation in 2015, No. 2015JBR0503-1-9;

(4) Key Technologies and Applications for Efficient and Stable Remediation and Safe Utilization of Heavy Metal-Contaminated Farmland, the Third Prize of Jiangsu Provincial Science and Technology Award in 2021, No. 2021-3-103-D

Patent

Honor Reward

Admissions Information