0 1 surface chemistry and catalytic physical chemistry (including structural chemistry) 4837 microstructure
02 heterogeneous catalysis or 838 inorganic chemistry and analytical chemistry
Electrode technology and high-energy chemical power supply
│ 04 Quantum Chemistry and Molecular Simulation │ 04 Directions: ① 10 1 Political Theory ② │ │
05 Chemical Reaction Kinetics and Laser Chemistry 20 1 English 3720 Quantum Mechanics 4836 General
06 structural chemical physics
Photochemistry and reaction kinetics
08 molecular sieve catalytic and functional materials
Chemistry of solid materials
Brief introduction of doctoral supervisor of physical chemistry specialty
The office telephone number and email address of the hospital and department (institute) where the surname is mainly attended.
Wu embedded electrode reaction kinetics, high energy battery-lithium ion battery, solid electrolyte. Department of Chemistry 02 1-65642403
hqwu@fudan.edu.cn
Theoretical study on adsorption and catalytic reaction mechanism of metal surface: theoretical study on surface structure, electronic state and catalytic performance of amorphous alloys: accurate calculation of molecular spectrum of mesomolecular structure and theoretical study on reaction mechanism; Femtosecond spectrum theory; Structural simulation of materials and macromolecules. Department of Chemistry 02 1-65649385
Knfan@fudan.edu.cn
Lu Jing and molecular reaction dynamics theory. The specific research contents include: spectral theory of ultrafast reaction kinetics (including absorption spectrum, Raman spectrum, fluorescence spectrum, etc. ), and the quantum theoretical chemistry department of charge transfer process in DNA system 02 1-65642356.
lujing@fudan.edu.cn
Liu (1), based on large-scale parallel calculation of quantum chemistry, combined with thermodynamics, dynamics, statistical methods and other means, studied the frontier topics in the fields of surface chemistry and physics, such as the catalytic reaction between nano-oxide and metal interface, the growth of oxide film, surface electrochemical process, biological enzyme catalytic process, etc. (2) The calculation method of first principles (density functional theory) and the search method of reaction transition state are studied, and a reasonable theoretical model of complex system is established, Department of Chemistry 02 1-65652400.
zpliu@fudan.edu.cn
Wang studied the structure, function and kinetics of protein by liquid multidimensional NMR and molecular dynamics simulation. Theoretical study on weak intermolecular interaction: molecular simulation and theoretical calculation of surface and catalytic reactions Department of Chemistry 02 1-65643985
wnwang@fudan.edu.cn
Heterogeneous catalysis and solid-state NMR of He He Yong: Mainly used for activation and functionalization of low-carbon alkanes; In-situ solid-state NMR was used to study the reaction mechanism. Preparation of nano-catalyst; Structural characterization chemical system of new materials
Advanced Materials Laboratory 02 1-656439 16
heyonghe@fudan.edu.cn
Cao Yong's research on surface chemistry and heterogeneous catalysis involves the construction of nano-mesoporous catalytic materials with high performance and new structure and its green catalytic application, selective oxidation of low-carbon alkanes to olefins, metal/semiconductor photocatalysis, in-situ dynamic spectral characterization of catalytic process and comprehensive utilization of C 1 resources.
yongcao@fudan.edu.cn
Based on green chemistry, Daviline has characterized heterogeneous catalysis, surface chemistry and in-situ reaction mechanism, including selective catalytic hydrogenation, catalytic oxidation, synthesis of new catalytic materials and in-situ surface energy spectroscopy (XPS) study.
wldai@fudan.edu.cn
Yinghong Yue zeolite and mesoporous molecular sieve catalytic materials; Layered catalytic materials; Nano-catalytic materials; Acid-base catalytic reaction; Redox catalytic reaction; Environmental protection catalytic reaction; Department of Fine Chemical Industry and Petroleum Catalytic Reaction Chemistry 02 1-65642409
yhyue@fudan.edu.cn
Selective hydrogenation on Qiao Minghua's metal alloy catalyst: preparation of amorphous alloy materials with new structure: hydrogen production by liquid phase reforming of biomass on nickel catalyst: inorganic and organic small molecule surface chemistry department on amorphous alloy 02 1-65643792-2
mhqiao@fudan.edu.cn
Tangyi molecular sieve catalytic and functional materials; Preparation and assembly of nanomaterials; New catalytic materials and heterogeneous catalytic chemistry department
Advanced materials laboratory 02 1-65642409
ytang@fudan.edu.cn
Wu (part-time) Department of Chemical Reaction Kinetics and Laser Chemistry
Photochemistry and reaction kinetics of Zhou-matrix isolated molecules: free radical spectroscopy; Department of Quantum Chemistry and Small Molecular Computational Chemistry
Advanced materials laboratory 02 1-65643443
mfzhou@fudan.edu.cn
Structure and Properties of Gas-phase protein Molecules D: New Techniques and Methods of Biological Mass Spectrometry and Their Applications in protein Metamics: Laser Photoelectron Spectroscopy and Physical and Chemical Properties of Molecules and Molecular Clusters Department of Chemistry 02 1-65642522.
cfding@fudan.ac.cn
Jiang Zhiyu's surface electrochemistry, spectroelectrochemistry, bioelectrochemistry, high-energy chemical power supply, etc. Department of Chemistry 02 1-65642404
zyjiang@fudan.ac.cn
Xia Yongyao's research on new energy storage materials and technologies, including lithium-ion batteries, electrochemical supercapacitors, dye-sensitized solar cells and biofuel cells; Application of inorganic-organic nanocomposites in energy storage, catalysis, electroluminescence and medicine, quantum design of functional materials, Department of Chemistry, 02 1-55664 177.
yyxia@fudan.edu.cn
Cai's surface and spectral electrochemistry and electrocatalysis, including in-situ surface enhanced infrared (Raman) spectroscopy study of electrode surface adsorption and reaction, all-wet preparation of metal nano-films on silicon and expansion of surface enhanced infrared spectroscopy, are localized deposition and combined electrochemistry of metal films 02 1-55664050.
wbcai@fudan.edu.cn
Reaction kinetics of Wu Yuping embedded electrode: solid electrolyte; Solid-state lithium ion battery; Application of Nano-materials in Energy Storage Materials: Department of Chemistry for Preparation of Micro-batteries and Their Materials 02 1-55664223/65642403
wuyp@fudan.edu.cn
Assembly of Qian Chao's Ordered Molecular Structure: Interface Synthesis of Nanomaterials: Department of Chemistry of Bio-hydrogen Production Plant 02 1-65643666
djqian@fudan.edu.cn