BEGIN:VCALENDAR
VERSION:2.0
PRODID:-//Memento EPFL//
BEGIN:VEVENT
SUMMARY:Melt electrowriting  (MEW) polymer scaffolds for regenerative medi
 cine
DTSTART:20250501T141500
DTEND:20250501T150000
DTSTAMP:20260430T100758Z
UID:e9dcda6b09fb317960bd7b5f95cb89c3e175ec67178d1ca469a411f6
CATEGORIES:Conferences - Seminars
DESCRIPTION:Associate Professor Paul Dalton leads a research group at the 
 Knight Campus of the University of Oregon. He has spent his academic caree
 r specializing in developing new manufacturing technologies for biomedical
  applications. An early adopter of melt electrospinning and pioneer of mel
 t electrowriting\, his research targets advanced biomaterials that can per
 form new functions. The team at the Knight Campus transforms known biomedi
 cal polymers into microscale designs that allows new functionality and pro
 perties. Originally from Perth\, Australia\, he was part of a bioengineeri
 ng team in the 1990s that successfully took an artificial cornea from conc
 ept to the clinic. His academic career has an international perspective\, 
 having lived/worked in Canada\, United Kingdom\, China\, Germany and now t
 he US. He has over 25 years’ experience across several disciplines inclu
 ding biomaterials\, nanotechnology tissue engineering\, neuroimmunology bi
 ofabrication\, and additive manufacturing. https://knightcampus.uoregon.ed
 u/paul-dalton  \nSeminar: Talk by Prof. Paul Dalton from University of Or
 egon\nIn the frame of our master course MICRO-413 on Advanced Additive Man
 ufacturing\, we organize a series of seminars by prominent academics and f
 rom industry\, active in the field of advanced printing.\nThe attendance i
 s free\, and will also be transmitted by zoom.
LOCATION:MED 2 2423 https://plan.epfl.ch/?room==MED%202%202423 https://epf
 l.zoom.us/my/juergenbrugger
STATUS:CONFIRMED
END:VEVENT
END:VCALENDAR