主题: Multiscale scaffold design for guided tissue formation主讲人: Hongjun Wang地点: 亿万先生mr01官网延安路校区第一会议室时间: 2016-06-25 14:30:30
主讲人简介:
Hongjun Wang,Ph.D., Associate Professor,Biomedical Engineering Chemistry and Biological Sciences,Stevens Institute of Technology,Hoboken, New Jersey, USA
Dr. Hongjun Wang isAssociate Professor of Biomedical Engineering and Associate Professor ofChemistry and Chemical Biology at the Stevens Institute of Technology, Hoboken,New Jersey, USA. The research interests of the Wang lab (www.stevens.edu/wanglab) mainly focuson multiscale biomimetic materials design, tissue reconstruction, in vitro tissue-on-a-chip andnanomedicine. His group has contributed a dozen of book chapters and invitedreviews, a number of patent applications, over 100 invited talks and seminarsand about 70 peer-reviewed papers in AdvancedMaterials, ACS Nano and Biomaterials.His work has been well cited (H index=25). He is also a recipient of severalawards including Jess N. Davis Award for Excellent Research (2015), Jess N.Davis Award for Exemplary Research (2010), etc. Prior to joining Stevens, hewas a research fellow at the Wellman Center for Photomedicine, MassachusettsGeneral Hospital and the Department of Dermatology, Harvard Medical School,Boston. Dr. Wang received his 1st Doctorate in Polymer Chemistry& Physics (Prof. Binglin He, 1998) with honors from the Institute ofPolymer Chemistry, Nankai University, Tianjin, China. He then worked at a Dutchbiomedical company, IsoTis NV, and received his 2nd Doctorate inBiomedical Engineering with Prof. dr. Clemens van Blitterswijk from theInstitute for Biomedical Technology, University of Twente, Netherlands in 2003.His research has been well funded by NIH, NSF and other agencies.
报告摘要:
(1) Introduction of scaffold design forfunctional tissue formation;
(2) The regulatory effect of physicalfeatures of scaffolds on cell phenotypic expression;
(3) Recentscaffold fabrication technologies developed for multiscale scaffold design;
(4) Potentialutility of different technologies in fabrication of multiscale biomimeticscaffolds