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Karen I. Winey

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This is an old revision of this page, as edited by BorderlineRebel (talk | contribs) at 22:19, 29 July 2022 (In Education: Added the field in which Karen Winey earned her Ph.D. and included a corresponding link to the Wikipedia article, "Polymer Science."). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Karen I. Winey
NationalityAmerican
Alma materCornell University (BS)
University of Massachusetts Amherst (MS, PhD)
Scientific career
FieldsMaterials science
Nanocomposites
Polymer electrolytes
InstitutionsUniversity of Pennsylvania
ThesisMorphologies and morphological transitions in binary blends of diblock copolymer and homopolymer (1991)
Doctoral advisorEdwin L. Thomas

Karen Irene Winey is an American materials scientist and chair of the University of Pennsylvania department of materials science and engineering.[1]

Education

Winey majored in materials science and engineering for her undergraduate degree (1985) at Cornell University. Winey earned her masters (1989) and PhD (1991) in polymer science and engineering at the University of Massachusetts Amherst, the latter in the laboratory of Edwin L. Thomas.[2][3] She completed a postdoc under Ronald G. Larson at Bell Labs.[4]

Career

Winey is a TowerBrook Foundation Faculty Fellow, professor, and department chair in materials science and engineering at the University of Pennsylvania, where she has taught since 1992.[4][5] She has mentored students as part of the Research and Education in Active Technologies for the Human Habitat program in collaboration with the Grenoble Innovation for Advanced New Technologies.[6] In 2020, Winey won the Braskem Award for Excellence in Materials Engineering and Science for her work in nanocomposites and ion-containing polymers.[7] She has been a Penn Engineering Wellness Ambassador.[8]

Winey is known internationally for her work using X-ray scattering to characterize polymers, including a recent collaboration with the University of Konstanz.[9] Her lab also focuses on solid polymer electrolyte materials (with such applications as batteries) to replace materials like Nafion.[10] Winey has described Nafion as "something of a fluke. Its structure has been the subject of debate for decades, and will likely never be fully understood or controlled."[5] Winey's group uses scattering and imaging techniques to characterize nanoscale morphologies of polymers and relate them to their ion transport properties.[7]

Recognition

In 2003, Winey was named a Fellow of the American Physical Society (APS), after a nomination from the APS Division of Polymer Physics, "for exquisite application of electron microscopy and x-ray scattering to the determination of the microstructure of polymers and to elucidating the role of microdomain geometry on polymer properties".[11] In 2012 she received the National Science Foundation George H. Heilmeier Faculty Award for Excellence in Research.

References

  1. ^ "Karen I. Winey | Materials Research Laboratory at UCSB: an NSF MRSEC". www.mrl.ucsb.edu. Retrieved 2021-04-08.
  2. ^ Winey, Karen (1991). Morphologies and morphological transitions in binary blends of diblock copolymer and homopolymer (PhD). University of Massachusetts Amherst. Retrieved 2021-04-08.
  3. ^ "Karen I. Winey – Winey Lab". Retrieved 2022-07-29.
  4. ^ a b "Materials Science and Engineering Spring Colloquium" (PDF). Northwestern McCormick School of Engineering. 2019-05-28.{{cite web}}: CS1 maint: url-status (link)
  5. ^ a b "New solid polymer electrolyte outperforms Nafion; novel polymer folding". Green Car Congress. Retrieved 2021-04-08.
  6. ^ "Training the next generation of globally minded researchers". Penn Today. Retrieved 2021-04-08.
  7. ^ a b "PEOPLE - All Together". alltogether.swe.org. 27 October 2020. Retrieved 2021-04-08.
  8. ^ "Wellness Ambassadors | Office of the Provost| Penn Provost". provost.upenn.edu. Retrieved 2021-04-08.
  9. ^ "Customized bio-synthetics". EurekAlert!. Retrieved 2021-04-08.
  10. ^ Trigg, Edward B.; Gaines, Taylor W.; Maréchal, Manuel; Moed, Demi E.; Rannou, Patrice; Wagener, Kenneth B.; Stevens, Mark J.; Winey, Karen I. (August 2018). "Self-assembled highly ordered acid layers in precisely sulfonated polyethylene produce efficient proton transport". Nature Materials. 17 (8): 725–731. Bibcode:2018NatMa..17..725T. doi:10.1038/s41563-018-0097-2. ISSN 1476-4660. OSTI 1473945. PMID 29807986. S2CID 44065591.
  11. ^ "Fellows nominated in 2003 by the Division of Polymer Physics". APS Fellows archive. Retrieved 2021-07-30.