Emerging transparent electrodes based on thin films of carbon nanotubes, graphene, and metallic nanostructures DS Hecht, L Hu, G Irvin Advanced materials 23 (13), 1482-1513, 2011 | 2576 | 2011 |
Continuous and scalable fabrication of transparent conducting carbon nanotube films B Dan, GC Irvin, M Pasquali ACS nano 3 (4), 835-843, 2009 | 517 | 2009 |
Carbon‐nanotube film on plastic as transparent electrode for resistive touch screens DS Hecht, D Thomas, L Hu, C Ladous, T Lam, Y Park, G Irvin, P Drzaic Journal of the Society for information Display 17 (11), 941-946, 2009 | 235 | 2009 |
Optical element with nanoparticles CJ Kaminsky, RP Bourdelais, GC Irvin US Patent 7,046,439, 2006 | 234 | 2006 |
Multi-layer conductor with carbon nanotubes TM Spath, GC Irvin Jr, D Majumdar, RS Cok, CC Anderson US Patent 7,645,497, 2010 | 196 | 2010 |
Metal and electronically conductive polymer transfer D Majumdar, GC Irvin Jr, JK Madathil, LW Tutt, GS Freedman, RJ Kress US Patent 7,410,825, 2008 | 154 | 2008 |
Surface-modified nanotube anodes for high performance organic light-emitting diode ECW Ou, L Hu, GCR Raymond, OK Soo, J Pan, Z Zheng, Y Park, D Hecht, ... ACS nano 3 (8), 2258-2264, 2009 | 144 | 2009 |
Adhesive transfer method of carbon nanotube layer G Irvin, D Majumdar, C Anderson, L Rowley, G Freedman US Patent App. 11/062,416, 2006 | 136 | 2006 |
Touchscreen with one carbon nanotube conductive layer TM Spath, GC Irvin Jr, D Majumdar, CC Anderson US Patent 7,535,462, 2009 | 134 | 2009 |
Touchscreen with conductive layer comprising carbon nanotubes TM Spath, GC Irvin Jr, D Majumdar, RS Cok, CC Anderson US Patent 7,593,004, 2009 | 131 | 2009 |
Touchscreen with carbon nanotube conductive layers GC Irvin Jr, TM Spath, CC Anderson, LA Rowley, D Majumdar US Patent 7,796,123, 2010 | 115 | 2010 |
Effect of loading and surface modification of MWCNTs on the fracture behavior of epoxy nanocomposites S Ganguli, H Aglan, P Dennig, G Irvin Journal of Reinforced Plastics and Composites 25 (2), 175-188, 2006 | 105 | 2006 |
Ionic liquid and electronically conductive polymer mixtures D Majumdar, LW Tutt, GC Irvin Jr, GS Freedman US Patent 7,438,832, 2008 | 89 | 2008 |
Desiccants and desiccant packages for highly moisture-sensitive electronic devices ML Boroson, JP Serbicki, PG Bessey, GC Irvin, LA Rowley, CJ Kaminsky US Patent 6,740,145, 2004 | 87 | 2004 |
Durable transparent carbon nanotube films for flexible device components KA Sierros, DS Hecht, DA Banerjee, NJ Morris, L Hu, GC Irvin, RS Lee, ... Thin Solid Films 518 (23), 6977-6983, 2010 | 86 | 2010 |
Synthesis and magnetic properties of a novel ferrite organogel S Li, VT John, GC Irvin, SH Rachakonda, GL McPherson, CJ O’Connor Journal of applied physics 85 (8), 5965-5967, 1999 | 71 | 1999 |
Resistive touch screen having conductive mesh RS Cok, D Majumdar, GC Irvin Jr US Patent 7,196,281, 2007 | 68 | 2007 |
Organic nanoparticles: preparation, self‐assembly, and properties R Jagannathan, G Irvin, T Blanton, S Jagannathan Advanced functional materials 16 (6), 747-753, 2006 | 66 | 2006 |
Apparatus and method of delivering a focused beam of a thermodynamically stable/metastable mixture of a functional material in a dense fluid onto a receiver R Jagannathan, GC Irvin Jr, S Jagannathan, S Sadasivan, S Sunderrajan, ... US Patent 6,471,327, 2002 | 60 | 2002 |
Method and apparatus for controlling depth of deposition of a solvent free functional material in a receiver R Jagannathan, GC Irvin Jr, S Jagannathan, S Sadasivan, S Sunderrajan, ... US Patent 6,595,630, 2003 | 59 | 2003 |