Following graduation from School of Pharmacy, Shanghai Medical University in 1991, Miss Danjing Wan joined the Department of Organic Chemistry, Shanghai Medical University and obtained her Master Degree from Fudan University in 2002. She worked as a lecture in Department of Radiopharmacy, School of Pharmacy, Fudan University since 1997 and served as a member of the National Conference on Nuclear and Radiochemistry Institute. Her teaching task was lecturing the course of “nuclear medicine introduction" and "the medicine element chemistry" for undergraduate students and the lecture of "Experimental Nuclear Medicine and Nuclear Medicine" for the graduate student. The main research directions were identification and analysis of radioactive drug, preparation of brain imaging agent targeting folate receptor and study on the novel techniques in pharmaceutical analysis based on carbon nanotube composite used in capillary electrophoresis with electrochemical detection. Now she is doctor candidate in School of Pharmacy, Fudan University.
Carbon nanotube composite; Capillary electrophoresis; Traditional Chinese Medicine; Carbon nanotube-nickel nanoparticle hybrid electrode; Electrochemical analysis
Education
2009-2016 Ph.D. in Pharmaceutics, Fudan University
1998-2002 M.Sc. in Pharmaceutics, Fudan University
1986-1991 B.Sc. in Pharmaceutics, Shanghai Medical University
Employment
Dec 1997- present Lecturer, Dept. of Radiopharmacy, School of Pharmacy, Fudan University, Shanghai, China
Jul 1991-Dec 1997 Assistant professor, Dept. of Organic Chemistry, School of Pharmacy, Shanghai Medical University
Funding
1. National Natural Science Foundation of China(Participant) (2013-2015)
Administration/Management
Member, Nuclear Medicine and Nuclear Pharmacy Committee, Shanghai Nuclear Society
Research Interests and Track Record
Dr.Danjing Wan’s research focuses on the frontier of “novel carbon nanotube (CNT) composite electrodes further boosted the application of the analytical mode in the study of Traditional Chinese Medicines”. She developed a series of novel CNT-based composite electrodes, successfully completed the determination of the four types of electroactive bioactive constituents, including sugars, organic acids, flavonoids and phenols in the four TCMs, expanded the scope of analyzable constituents in TCMs. The brand new CE-ECD system would offer an attractive alternative with special superiority and different from traditional techniques for TCM analysis.
