HE Min
Associate Professor
Dept. of Applied Physics
E-MAIL: hemin@wust.edu.cn
Educational Background
2015--2016, University of Kansas, University of Missouri-Kansas City, Postdoctor
2009--2013, Huazhong University of Science & Technology, Materials Science, Doctor.
2004--2005, Tsinghua University, Joint training of students
2002--2005, Xian University of Architecture & Technology, Physical Chemistry of Metallurgy, Master.
1995--1999, Jilin University, Industrial Analysis, Bachelor.
Work Experience
2005--Present, Associate professor, Dept. of Applied Physics, Wuhan University of Science & Technology, China.
1999--2002, Analysis Engineer, Testing and Analysis Center, Northwest Institute of Nonferrous Geology,
Research Field
Main research field is new functional materials in energy and environment, such as:
1: Lithium ion battery
2: Lithium sulfur battery
3: Supercapacitor
4: Electrocatalysis
5: | Environmental materials. |
Academic Achievements
1.The project "Preparation, Characterization and Application of Metal nanocomposites" won the third prize of Hubei Natural Science Award of Hubei Provincial Department of Education,2016
2.Honorary title of "Outstanding Graduate Student" of Huazhong University of Science and Technology, 2013.
3.A magnetic carbon sponge adsorbent and its preparation and application, Invention Patent(China), CN: 202410227487.0
4.A high-capacity nano cobalt sulfide adsorbent and its preparation method and application, Invention Patent(China), CN: 202410227018.9
5.Preparation and electrochemical performances of heterogeneous MoS2/Ti3C2Tx composite electrodes, Journal of Wuhan University of Science & Technology. 2024, 47(1):30-37.
6.Hydrogenation effects on the lithium ion battery performance of TiOF2.Journal of Power Sources, 2016, 306: 309-316.
7.SnO2@Carbon Nanocluster Anode Material with Superior Cyclability and Rate Capability for Lithium-Ion Batteries. Nanoscale, 2013, 5, 3298–3305. ESI highly cited, Hot paper
8.Acetylene black incorporated three-dimensional porous SnS2 nanoflowers with high performance for lithium storage. RSC Adv. 2013, 3, 3374–3383.
9.Porous carbon nanotubes improved sulfur composite cathode for lithium-sulfur battery. J Solid State Electrochem, 2013, 17(6)1641-1647.
10.Enhanced Cyclability for Sulfur Cathode Achieved by a Water-Soluble Binder. J. Phys. Chem. C, 2011, 115, 15703–15709.
11.Three-Dimensional Crystalline/Amorphous Co/Co3O4 Core/Shell Nanosheets as Efficient Electrocatalysts for the Hydrogen Evolution Reaction, Nano Lett. 2015, 15, 6015-6021. ESI highly cited
12.TiO2 Nanomaterials as Anode Materials for Lithium-Ion Rechargeable Batteries, Energy Technology, 2015, 3, 801-814.
13.A Review on Organic Polymer-Based Thermoelectric Materials, Journal of Polymers and the Environment. 2017, 25(4): 1208-1218.
14.Study on the adsorption properties and principles of D261 macroporous resin for cyanide, Gold, 2010, 31(9):52-55.
15.Adsorption of D261 macroporous resin for cyanide, Metal Mine, 2009, 2:168-177.
16.The progress of cyanide wastewater treatment with ion-exchange resins. Gold, 2006,27(1):45-48
17.Leaching rhenium from fume of calcinating molybdenite concentrate. Journal of Rare Earths, 2005, 23:96-98.
18.Study on D296 R performance of adsorption and elution for cyanide, Metal Mine, 2005, 10:56-59
19.Analysis of Trace Gold and Palladium in Geological Samples by Atomic Absorption Spectroscopy after Separation and Concentration with D296 Anion Ion Exchange Resin, Rare Metals, 2004,18(6):1443-1447