Personal information
Verified email addresses
Verified email domains
Biography
Prof. Dr. Xiang Mao received his B.S. in 2008 from Shanxi Normal University, and his M.S in 2011 from “CO-Cooperation-Project” between Hebei University and National Center for Nanoscience and Technology (NCNST, China), under the supervisor of Prof. Zhengping Li and Prof. Zhiyong Tang. He Received the Ph.D. in 2015 from “Pusan National University” under supervisor Professor Jaebeom Lee. He received "2014 National Excellent Self-funded International Student Scholarship". After a short international cooperation between “Korea-Japan-America”. Prof Mao joined “College of Chemistry and Chemical Engineering at Southwest University” in September 2015, and transferred to “College of Science in Tianjin University” in May 2017. Now, Prof Mao joined “College of Biomedical Engineering at Chongqing Medical University”from August, 2018. He is also a invited investigator at the Chongqing Key Laboratory of Soft Materials (Chongqing City).
Research Interests:
1. Self-Assembled Functional Nanomaterials (NMs) We are broadly interested in developing new optical, catalytical and photo-thermal applications related to self-assembled nanostructured materials. Our research work involves synthesis, self-assembly and various properties of noble metal clusters, semiconductors and hybrid NMs.
2. Super-hydrophilic (SPh) & Ultra-smaller (US) alloyed nanoparticles (NPs) We do the hydrophilic Pd based catalyst in different applications. In order to overcome traditional shortage in fabricating approaches, our research works involves synthesis, structure controlling, catalytic performance and bio-catalytic works as metalized enzyme.
3. Physical influence in adjusting crystalline reproduction and computational works We are studying the technique of ultrasound influence toward metal crystalline appearance. There have traditional ultrasound and high intensity focused ultrasound performance in metal particle mediated processes. Structure and inter metallic crystalline enhanced the catalytic property in biosensors and dye molecular degradation.
Activities
Employment (1)
Works (38)
2-s2.0-85066993021
2-s2.0-85045618328
2-s2.0-85041671745
2-s2.0-85048837833
MEDLINE:29493087
MEDLINE:29278816
MEDLINE:28850234
WOS:000403027500008
WOS:000360914900025
WOS:000358558300047
WOS:000335000300010
WOS:000336416600001
WOS:000325926700016
WOS:000208935600007