Xiaoxi Huang

Curriculum Vitae

Associate Professor of HIAM at Shenzhen Polytechnic. With a B.S. degree from Peking University School of Pharmaceutical Sciences, he earned his Ph.D. degree from the Department of Chemistry and Chemical Biology of Rutgers University in 2016. Afterthat he joined Department of Chemistry at Purdue University as Postdoctoral Research Associate. His main research interests include materials synthesis, electrochemistry, catalysis, clean energy and biomedical applications. And he has published over 30 peer-reviewed papers.

Selected Publications

7. Liu, S.; Zhang, J.; Wang, H.; Asefa, T.*; Huang, X.* “A facile route to efficient water oxidation electrodes via electrochemical activation of iron in nickel sulfate solution.”ACS Sustainable Chem. Eng.,2020, 8, 41, 15550-15559.

6. Zhang, J.; Liu, S.; Wang, H.; Xia, Q.; Huang, X.* “Polypyrrole assisted synthesis of nanosized iridium oxide for oxygen evolution reaction in acidic medium.”Int. J. Hydrogen Energy,2020, accepted.

5. Huang, X.; Shumski, A.J.; Zhang, X.; Li, C. W. “Systematic control of redox properties and oxygen reduction reactivity through colloidal ligand-exchange deposition of Pd on Au.”J. Am. Chem. Soc.,2018, 140, 8918.

4. Huang, X.; Zhang, T.; Asefa, T. “Hollow mesoporous carbon microparticles and micromotors with single holes templated by colloidal silica-assisted gas bubbles”Small,2017, 13, 1700256.

3. Huang, X.; Zhou, L.; Voiry, D.; Chhowalla, M.; Zou, X.; Asefa, T. “Monodisperse mesoporous carbon nanoparticles from polymer/silica self-aggregates and their electrocatalytic activities”ACS Appl. Mater. Interfaces,2016, 8, 18891.

2. Huang, X.; Zou, X.; Meng, Y.; Mikmeková, E.; Chen, H.; Voiry, D.; Goswami, A.; Chhowalla, M.; Asefa, T. “Yeast cells-derived hollow core/shell heteroatom-doped carbon microparticles for sustainable electrocatalysis”ACS Appl. Mater. Interfaces,2015,7, 1978.

1. Huang, X.; Tao, Z.; Praskavich Jr., J. C.; Goswami, A.; Al-Sharab, J.; Minko, T.; Polshettiwar, V.; Asefa, T. “Dendritic silica nanomaterials (KCC-1) with fibrous pore structure possess high DNA adsorption capacity and effectively deliver genes in vitro”Langmuir,2014,30, 10886.