Designing superoleophobic surfaces A Tuteja, W Choi, M Ma, JM Mabry, SA Mazzella, GC Rutledge, ... Science 318 (5856), 1618-1622, 2007 | 3274 | 2007 |
Experimental characterization of electrospinning: the electrically forced jet and instabilities YM Shin, MM Hohman, MP Brenner, GC Rutledge Polymer 42 (25), 09955-09967, 2001 | 1594 | 2001 |
Electrospinning and electrically forced jets. I. Stability theory MM Hohman, M Shin, G Rutledge, MP Brenner Physics of fluids 13 (8), 2201-2220, 2001 | 1537 | 2001 |
Controlling the fiber diameter during electrospinning SV Fridrikh, JH Yu, MP Brenner, GC Rutledge Physical review letters 90 (14), 144502, 2003 | 1253 | 2003 |
Electrospinning and electrically forced jets. II. Applications MM Hohman, M Shin, G Rutledge, MP Brenner Physics of fluids 13 (8), 2221-2236, 2001 | 1094 | 2001 |
Electrospinning: A whipping fluid jet generates submicron polymer fibers YM Shin, MM Hohman, MP Brenner, GC Rutledge Applied physics letters 78 (8), 1149-1151, 2001 | 1053 | 2001 |
Electrospinning Bombyx mori Silk with Poly(ethylene oxide) HJ Jin, SV Fridrikh, GC Rutledge, DL Kaplan Biomacromolecules 3 (6), 1233-1239, 2002 | 1005 | 2002 |
Multiscale micromechanical modeling of polymer/clay nanocomposites and the effective clay particle N Sheng, MC Boyce, DM Parks, GC Rutledge, JI Abes, RE Cohen Polymer 45 (2), 487-506, 2004 | 979 | 2004 |
Superhydrophobic fabrics produced by electrospinning and chemical vapor deposition M Ma, Y Mao, M Gupta, KK Gleason, GC Rutledge Macromolecules 38 (23), 9742-9748, 2005 | 913 | 2005 |
Formation of fibers by electrospinning GC Rutledge, SV Fridrikh Advanced drug delivery reviews 59 (14), 1384-1391, 2007 | 842 | 2007 |
Electrospun poly (styrene-block-dimethylsiloxane) block copolymer fibers exhibiting superhydrophobicity M Ma, RM Hill, JL Lowery, SV Fridrikh, GC Rutledge Langmuir 21 (12), 5549-5554, 2005 | 662 | 2005 |
Production of submicrometer diameter fibers by two‐fluid electrospinning JH Yu, SV Fridrikh, GC Rutledge Advanced Materials 16 (17), 1562-1566, 2004 | 548 | 2004 |
The role of elasticity in the formation of electrospun fibers JH Yu, SV Fridrikh, GC Rutledge Polymer 47 (13), 4789-4797, 2006 | 527 | 2006 |
Effect of fiber diameter, pore size and seeding method on growth of human dermal fibroblasts in electrospun poly (ɛ-caprolactone) fibrous mats JL Lowery, N Datta, GC Rutledge Biomaterials 31 (3), 491-504, 2010 | 514 | 2010 |
Mechanical properties of electrospun silk fibers M Wang, HJ Jin, DL Kaplan, GC Rutledge Macromolecules 37 (18), 6856-6864, 2004 | 419 | 2004 |
Decorated electrospun fibers exhibiting superhydrophobicity M Ma, M Gupta, Z Li, L Zhai, KK Gleason, RE Cohen, MF Rubner, ... Advanced materials 19 (2), 255-259, 2007 | 359 | 2007 |
Spraying asymmetry into functional membranes layer-by-layer KC Krogman, JL Lowery, NS Zacharia, GC Rutledge, PT Hammond Nature materials 8 (6), 512-518, 2009 | 349 | 2009 |
Morphology of porous and wrinkled fibers of polystyrene electrospun from dimethylformamide CL Pai, MC Boyce, GC Rutledge Macromolecules 42 (6), 2102-2114, 2009 | 301 | 2009 |
Field-responsive superparamagnetic composite nanofibers by electrospinning M Wang, H Singh, TA Hatton, GC Rutledge Polymer 45 (16), 5505-5514, 2004 | 288 | 2004 |
Handbook of polymer crystallization E Piorkowska, GC Rutledge John Wiley & Sons, 2013 | 253 | 2013 |