Ding, GM Spinks, J. Mazurkiewicz, DZ Zhou, GG Wallace, DR MacFarlane, SA Forsyth, M. Forsyth W Lu, AG Fadeev, BH Qi, E Smela, BR Mattes Science 297, 983, 2002 | 1457* | 2002 |
STABLE CONJUGATED POLYMER ELECTROCHROMIC DEVICES INCORPORATING IONIC LIQUIDS W LU WO Patent WO/2002/053,808, 2002 | 1332 | 2002 |
Conjugated polymer films for gas separations MR Anderson, BR Mattes, H Reiss, RB Kaner Science 252 (5011), 1412-1415, 1991 | 562 | 1991 |
Conjugated polymers: processing and applications; Conducting Polymer Fiber Production and Applications ID Norris, BR Mattes CRC 2, 2-1-2-63, 2006 | 455* | 2006 |
Polyaniline actuators: Part 1. PANI (AMPS) in hcl E Smela, W Lu, BR Mattes Synthetic metals 151 (1), 25-42, 2005 | 187 | 2005 |
Carbon/nutrient balance as a predictor of plant defense in Alaskan balsam poplar: potential importance of metabolite turnover PB Reichardt, FS Chapin, JP Bryant, BR Mattes, TP Clausen Oecologia 88 (3), 401-406, 1991 | 180 | 1991 |
Intrinsically conducting polymers: an emerging technology: The Separation of Gases Using Conducting Polymer Films BR Mattes, MR Anderson, H Reiss, RB Kaner Springer 246 (246), 61-74, 1993 | 178* | 1993 |
BR Mattes, TP Clausen, FSIII Chapin, and M. Meyer. 1990b. Winter chemical defense of Alaskan balsam poplar against snowshoe hares PB Reichardt, JP Bryant Journal of Chemical Ecology 16, 1941-1959, 0 | 177* | |
LONG-LIVED CONJUGATED POLYMER ELECTROCHEMICAL DEVICES INCORPORATING IONIC LIQUIDS W LU WO Patent WO/2002/063,073, 2002 | 143 | 2002 |
Fabricating conducting polymer electrochromic devices using ionic liquids W Lu, AG Fadeev, B Qi, BR Mattes Journal of the Electrochemical Society 151 (2), H33, 2004 | 141 | 2004 |
Formation of conductive polyaniline fibers derived from highly concentrated emeraldine base solutions BR Mattes, HL Wang, D Yang, YT Zhua, WR Blumenthala, MF Hundleya Synthetic metals 84 (1-3), 45-49, 1997 | 141 | 1997 |
Winter chemical defense of Alaskan balsam poplar against snowshoe hares PB Reichardt, JP Bryant, BR Mattes, TP Clausen, FS Chapin, M Meyer Journal of Chemical Ecology 16 (6), 1941-1959, 1990 | 140 | 1990 |
Conductive fibre prepared from ultra-high molecular weight polyaniline for smart fabric and interactive textile applications D Bowman, BR Mattes Synthetic metals 154 (1-3), 29-32, 2005 | 129 | 2005 |
Gas separation membranes: a novel application for conducting polymers MR Anderson, BR Mattes, H Reiss, RB Kaner Synthetic Metals 41 (3), 1151-1154, 1991 | 129 | 1991 |
Enhanced optical limiting in derivatized fullerenes L Smilowitz, D McBranch, V Klimov, JM Robinson, A Koskelo, ... Optics letters 21 (13), 922-924, 1996 | 126 | 1996 |
Development of solid-in-hollow electrochemical linear actuators using highly conductive polyaniline W Lu, E Smela, P Adams, G Zuccarello, BR Mattes Chemistry of materials 16 (9), 1615-1621, 2004 | 122 | 2004 |
Conductive Polymers and Plastics: In Industrial Applications L Rupprecht William Andrew, 1999 | 121 | 1999 |
A solid state NMR characterization of cross-linked polyaniline powder R Mathew, BR Mattes, MP Espe Synthetic metals 131 (1-3), 141-147, 2002 | 105 | 2002 |
Substituted polyaniline nanofibers produced via rapid initiated polymerization HD Tran, I Norris, JM D’Arcy, H Tsang, Y Wang, BR Mattes, RB Kaner Macromolecules 41 (20), 7405-7410, 2008 | 99 | 2008 |
Effect of processing conditions on the properties of high molecular weight conductive polyaniline fiber HL Wang, RJ Romero, BR Mattes, Y Zhu, MJ Winokur Journal of Polymer Science Part B: Polymer Physics 38 (1), 194-204, 2000 | 97 | 2000 |