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              知名研究者简介:Dr. Darrell H. Reneker

              Professor of Polymer Science at The University of Akron


              1959 Ph.D., Physics, University of Chicago

              1955 M.S., Physics, University of Chicago

              1951 B.S., Electrical Engineering, Iowa State University

              Research Interests

              Polymer physics, computer modeling of conformation defects in polymer crystals,morphology and scanning tunneling microscopy of polymers, electron holography of

              polymer molecules, electrospinning of polymer fibers, electrostriction of polymers,polymer nanofibers.

              Lab Equipments

              Scanning probe microscope, AFM & STM; electrospinning apparatus and process control instrumentation; Video photography; Image processing software.

              Contact Information

              Department of Polymer Science, The University of Akron

              Akron, Ohio 44325-3909

              Email: reneker@uakron.edu

              Voice: (330) 972-6949

              Fax: (330) 972-5290

              Top 20 of the Most Cited Papaers on Electrospinning

              1. Reneker, D.H. and I. Chun, Nanometre diameter fibres of polymer, produced by electrospinning. Nanotechnology, 1996. 7(3): p. 216-223. (Times Cited: 1286)

              2. Doshi, J. and D.H. Reneker, Electrospinning Process ans Appications of Electrospun Fibers. Journal of Electrostatics, 1995. 35(2-3): p. 151-160. (Times Cited: 956)

              3. Reneker, D.H., et al., Bending instability of electrically charged liquid jets of polymer solutions in electrospinning. Journal of Applied Physics, 2000. 87(9): p. 4531-4547. (Times Cited: 812)

              4. Fong, H., I. Chun, and D.H. Reneker, Beaded nanofibers formed during electrospinning. Polymer, 1999. 40(16): p. 4585-4592. (Times Cited: 744)

              5. Yarin, A.L., S. Koombhongse, and D.H. Reneker, Bending instability in electrospinning of nanofibers. Journal of Applied Physics, 2001. 89(5): p. 3018-3026. (Times Cited: 329)

              6. Koombhongse, S., W.X. Liu, and D.H. Reneker, Flat polymer ribbons and other shapes by electrospinning. Journal of Polymer Science Part B-Polymer Physics, 2001. 39(21): p. 2598-2606. (Times Cited: 239)

              7. Reneker, D.H. and A.L. Yarin, Electrospinning jets and polymer nanofibers. Polymer, 2008. 49(10): p. 2387-2425. (Times Cited: 216)

              8. Yarin, A.L., S. Koombhongse, and D.H. Reneker, Taylor cone and jetting from liquid droplets in electrospinning of nanofibers. Journal of Applied Physics, 2001. 90(9): p. 4836-4846. (Times Cited: 219)

              9. Jia, H.F., et al., Enzyme-carrying polymeric nanofibers prepared via electrospinning for use as unique biocatalysts. Biotechnology progress, 2002. 18(5): p. 1027-1032. (Times Cited: 200)

              10. Melaiye, A., et al., Silver(I)-imidazole cyclophane gem-diol complexes encapsulated by electrospun tecophilic nanofibers: Formation of nanosilver particles and antimicrobial activity. Journal of the American Chemical Society, 2005. 127(7): p. 2285-2291. (Times Cited: 199)

              11. Kim, J.S. and D.H. Reneker, Mechanical properties of composites using ultrafine electrospun fibers. Polymer Composites, 1999. 20(1): p. 124-131. (Times Cited: 162)

              12. Ge, J.J., et al., Assembly of well-aligned multiwalled carbon nanotubes in confined polyacrylonitrile environments: Electrospun composite nanofiber sheets. Journal of the American Chemical Society, 2004. 126(48): p. 15754-15761. (Times Cited: 154)

              13. Fong, H. and D.H. Reneker, Elastomeric nanofibers of styrene-butadiene-styrene triblock copolymer. Journal of Polymer Science Part B-Polymer Physics, 1999. 37(24): p. 3488-3493. (Times Cited: 136)

              14. Hou, H.Q., et al., Electrospun polyacrylonitrile nanofibers containing a high concentration of well-aligned multiwall carbon nanotubes. Chemistry of Materials, 2005. 17(5): p. 967-973. (Times Cited: 135)

              15. Reneker, D.H., et al., Electrospinning of nanofibers from polymer solutions and melts, in Advances in Applied Mechanics, Vol 41, H.V.E. Aref, Editor. 2007. p. 43-195. (Times Cited: 128)

              16. Hou, H.Q. and D.H. Reneker, Carbon nanotubes on carbon nanofibers: A novel structure based on electrospun polymer nanofibers. Advanced Materials, 2004. 16(1): p. 69-+. (Times Cited: 125)

              17. Srinivasan, G. and D.H. Reneker, Structure and Morphology of Small-Diameter Electrospun Aramid Fibers. Polymer International, 1995. 36(2): p. 195-201. (Times Cited: 115)

              18. Fang, X. and D.H. Reneker, DNA fibers by electrospinning. Journal of Macromolecular Science-Physics, 1997. B36(2): p. 169-173. (Times Cited: 108)

              19. Kim, J.S. and D.H. Reneker, Polybenzimidazole nanofiber produced by electrospinning. Polymer Engineering and Science, 1999. 39(5): p. 849-854. (Times Cited: 96)

              20. Reneker, D.H., et al., Nanofiber garlands of polycaprolactone by electrospinning. Polymer, 2002. 43(25): p. 6785-6794. (Times Cited: 84)