医学院科研论坛:Prof. David Wang
2025-02-28 医学院科研论坛
You are cordially invited to join the MED Research Seminar to be delivered by Prof. David Wang on February 28, 2025 (Friday). The lecture is entitled "Innovative Technologies in Biomedical Engineering and Development Strategies for Drugs and Medical Materials".
Please find the details as follows:
Date: February 28, 2025 (Friday)
Time: 10:00-11:00
Location: TD107
Speaker: Prof. David Wang
Abstract
1. The combination of nanotechnology and biomedicine has many applications in daily life, such as skin care products that are easily absorbed by the skin, cleaning products with disinfection and antibacterial functions, etc. Among them, the development of various nanoparticles as functional molecular carriers for gene delivery, regenerative medicine, drug delivery and cancer treatment is a research hotspot in the application of nanomedicine.
2. The development of acid-base and temperature dual-responsive biomedical materials has controllable properties and multi-functional wound repair, and has the characteristics of active targeting and simultaneous combined delivery of genes and drugs. Therefore, it provides a new treatment platform for the combination of acid-base and temperature dual-responsive systems and drugs. It can effectively deliver drug targets to the cell nucleus or mitochondria at the appropriate time and place, and simultaneously regulate multiple cell message transmission pathways, so it has great potential to improve the success rate and safety of wound therapy.
1. The combination of nanotechnology and biomedicine has many applications in daily life, such as skin care products that are easily absorbed by the skin, cleaning products with disinfection and antibacterial functions, etc. Among them, the development of various nanoparticles as functional molecular carriers for gene delivery, regenerative medicine, drug delivery and cancer treatment is a research hotspot in the application of nanomedicine.
2. The development of acid-base and temperature dual-responsive biomedical materials has controllable properties and multi-functional wound repair, and has the characteristics of active targeting and simultaneous combined delivery of genes and drugs. Therefore, it provides a new treatment platform for the combination of acid-base and temperature dual-responsive systems and drugs. It can effectively deliver drug targets to the cell nucleus or mitochondria at the appropriate time and place, and simultaneously regulate multiple cell message transmission pathways, so it has great potential to improve the success rate and safety of wound therapy.
Short Bio
•During the past five years, he has published almost 100 international papers. Impact factor > 7.0: 30 articles. The overall impact factor amount is over 300 points. The cited number is over 20,000 in Google Scholar and H-index: 71
•Associate Editor or Assistant Editor, Guest Editor in 21 international journals, and one of the reviewers for more than 80 SCI international journals.
•Director or Supervisor in 26 Academic Committees.
•Multiple patents: USA (8 items); Japan (2 items); China (1 item); Taiwan (10 items)
•Multiple technology transfer: UK (2 items); South Africa (2 items); Taiwan (9 items)
•EMI (English as a Medium of Instruction) Certificate in Cambridge
•During the past five years, he has published almost 100 international papers. Impact factor > 7.0: 30 articles. The overall impact factor amount is over 300 points. The cited number is over 20,000 in Google Scholar and H-index: 71
•Associate Editor or Assistant Editor, Guest Editor in 21 international journals, and one of the reviewers for more than 80 SCI international journals.
•Director or Supervisor in 26 Academic Committees.
•Multiple patents: USA (8 items); Japan (2 items); China (1 item); Taiwan (10 items)
•Multiple technology transfer: UK (2 items); South Africa (2 items); Taiwan (9 items)
•EMI (English as a Medium of Instruction) Certificate in Cambridge
All of you are warmly welcome!
