Conjugated polymer-based chemical sensors DT McQuade, AE Pullen, TM Swager Chemical Reviews 100 (7), 2537-2574, 2000 | 4072 | 2000 |
Chemical sensors based on amplifying fluorescent conjugated polymers SW Thomas, GD Joly, TM Swager Chemical reviews 107 (4), 1339-1386, 2007 | 3964 | 2007 |
Fluorescent porous polymer films as TNT chemosensors: electronic and structural effects JS Yang, TM Swager Journal of the American Chemical Society 120 (46), 11864-11873, 1998 | 1426 | 1998 |
The molecular wire approach to sensory signal amplification TM Swager Accounts of Chemical Research 31 (5), 201-207, 1998 | 1322 | 1998 |
Porous shape persistent fluorescent polymer films: an approach to TNT, sensory materials JS Yang J. Am. Chem. Soc. 120, 5321-5322, 1998 | 933 | 1998 |
Fluorescent chemosensors based on energy migration in conjugated polymers: The molecular wire approach to increased sensitivity Q Zhou, TM Swager Journal of the American Chemical Society 117 (50), 12593-12602, 1995 | 873 | 1995 |
Sensitivity gains in chemosensing by lasing action in organic polymers A Rose, Z Zhu, CF Madigan, TM Swager, V Bulović Nature 434 (7035), 876-879, 2005 | 757 | 2005 |
Emerging applications of carbon nanotubes JM Schnorr, TM Swager Chemistry of Materials 23 (3), 646-657, 2011 | 663 | 2011 |
Discrete intensity jumps and intramolecular electronic energy transfer in the spectroscopy of single conjugated polymer molecules DAV Bout, WT Yip, D Hu, DK Fu, TM Swager, PF Barbara Science 277 (5329), 1074-1077, 1997 | 646 | 1997 |
Control of conformational and interpolymer effects in conjugated polymers J Kim, TM Swager Nature 411 (6841), 1030-1034, 2001 | 554 | 2001 |
Detection of bacteria with carbohydrate-functionalized fluorescent polymers MD Disney, J Zheng, TM Swager, PH Seeberger Journal of the American Chemical Society 126 (41), 13343-13346, 2004 | 512 | 2004 |
Cu3 (hexaiminotriphenylene) 2: an electrically conductive 2D metal–organic framework for chemiresistive sensing MG Campbell, D Sheberla, SF Liu, TM Swager, M Dincă Angewandte Chemie International Edition 54 (14), 4349-4352, 2015 | 504 | 2015 |
Polymer‐based photonic crystals AC Edrington, AM Urbas, P DeRege, CX Chen, TM Swager, ... Advanced Materials 13 (6), 421-425, 2001 | 491 | 2001 |
TOTAPOL: a biradical polarizing agent for dynamic nuclear polarization experiments in aqueous media C Song, KN Hu, CG Joo, TM Swager, RG Griffin Journal of the American Chemical Society 128 (35), 11385-11390, 2006 | 490 | 2006 |
Method for enhancing the sensitivity of fluorescent chemosensors: energy migration in conjugated polymers Q Zhou, TM Swager Journal of the American Chemical Society 117 (26), 7017-7018, 1995 | 481 | 1995 |
Fluorescent detection of chemical warfare agents: functional group specific ratiometric chemosensors SW Zhang, TM Swager Journal of the American Chemical Society 125 (12), 3420-3421, 2003 | 455 | 2003 |
Chemiresistive sensor arrays from conductive 2D metal–organic frameworks MG Campbell, SF Liu, TM Swager, M Dincă Journal of the American Chemical Society 137 (43), 13780-13783, 2015 | 410 | 2015 |
Conducting polymetallorotaxanes: metal ion mediated enhancements in conductivity and charge localization SS Zhu, TM Swager Journal of the American Chemical Society 119 (51), 12568-12577, 1997 | 410 | 1997 |
High frequency dynamic nuclear polarization QZ Ni, E Daviso, TV Can, E Markhasin, SK Jawla, TM Swager, RJ Temkin, ... Accounts of chemical research 46 (9), 1933-1941, 2013 | 403 | 2013 |
Fluorescence studies of poly (p-phenyleneethynylene) s: the effect of anthracene substitution TM Swager, CJ Gil, MS Wrighton The Journal of Physical Chemistry 99 (14), 4886-4893, 1995 | 394 | 1995 |