Photopolymer materials and processes for advanced technologies JV Crivello, E Reichmanis Chemistry of Materials 26 (1), 533-548, 2014 | 440 | 2014 |
Chemical amplification mechanisms for microlithography E Reichmanis, FM Houlihan, O Nalamasu, TX Neenan Chemistry of materials 3 (3), 394-407, 1991 | 336 | 1991 |
Polymer materials for microlithography E Reichmanis, LF Thompson Chemical Reviews 89 (6), 1273-1289, 1989 | 236 | 1989 |
Ring oscillator fabricated completely by means of mass-printing technologies AC Hübler, F Doetz, H Kempa, HE Katz, M Bartzsch, N Brandt, I Hennig, ... Organic Electronics 8 (5), 480-486, 2007 | 196 | 2007 |
Energy-sensitive resist material and a process for device fabrication using an energy-sensitive resist material FM Houlihan, O Nalamasu, E Reichmanis, TI Wallow US Patent 5,843,624, 1998 | 183 | 1998 |
Molecular-channel driven actuator with considerations for multiple configurations and color switching J Mu, G Wang, H Yan, H Li, X Wang, E Gao, C Hou, ATC Pham, L Wu, ... Nature communications 9 (1), 590, 2018 | 178 | 2018 |
Research in macromolecular science: challenges and opportunities for the next decade CK Ober, SZD Cheng, PT Hammond, M Muthukumar, E Reichmanis, ... Macromolecules 42 (2), 465-471, 2009 | 178 | 2009 |
Nanoporous ultralow dielectric constant organosilicates templated by triblock copolymers S Yang, PA Mirau, CS Pai, O Nalamasu, E Reichmanis, JC Pai, YS Obeng, ... Chemistry of materials 14 (1), 369-374, 2002 | 175 | 2002 |
Nitrobenzyl ester chemistry for polymer processes involving chemical amplification FM Houlihan, A Shugard, R Gooden, E Reichmanis Macromolecules 21 (7), 2001-2006, 1988 | 153 | 1988 |
Elastomer–polymer semiconductor blends for high-performance stretchable charge transport networks D Choi, H Kim, N Persson, PH Chu, M Chang, JH Kang, S Graham, ... Chemistry of Materials 28 (4), 1196-1204, 2016 | 147 | 2016 |
Nucleation, growth, and alignment of poly (3-hexylthiophene) nanofibers for high-performance OFETs NE Persson, PH Chu, M McBride, M Grover, E Reichmanis Accounts of Chemical Research 50 (4), 932-942, 2017 | 136 | 2017 |
Tunable crystallinity in regioregular poly (3‐hexylthiophene) thin films and its impact on field effect mobility AR Aiyar, JI Hong, R Nambiar, DM Collard, E Reichmanis Advanced Functional Materials 21 (14), 2652-2659, 2011 | 136 | 2011 |
Enhancing field‐effect mobility of conjugated polymers through rational design of branched side chains B Fu, J Baltazar, AR Sankar, PH Chu, S Zhang, DM Collard, ... Advanced Functional Materials 24 (24), 3734-3744, 2014 | 130 | 2014 |
Molecular templating of nanoporous ultralow dielectric constant (≈ 1.5) organosilicates by tailoring the microphase separation of triblock copolymers S Yang, PA Mirau, CS Pai, O Nalamasu, E Reichmanis, EK Lin, HJ Lee, ... Chemistry of materials 13 (9), 2762-2764, 2001 | 129 | 2001 |
Ordering of poly (3-hexylthiophene) in solutions and films: Effects of fiber length and grain boundaries on anisotropy and mobility N Kleinhenz, N Persson, Z Xue, PH Chu, G Wang, Z Yuan, MA McBride, ... Chemistry of Materials 28 (11), 3905-3913, 2016 | 122 | 2016 |
Photoinduced anisotropic supramolecular assembly and enhanced charge transport of poly (3‐hexylthiophene) thin films M Chang, J Lee, N Kleinhenz, B Fu, E Reichmanis Advanced Functional Materials 24 (28), 4457-4465, 2014 | 122 | 2014 |
Versatile interpenetrating polymer network approach to robust stretchable electronic devices G Zhang, M McBride, N Persson, S Lee, TJ Dunn, MF Toney, Z Yuan, ... Chemistry of Materials 29 (18), 7645-7652, 2017 | 113 | 2017 |
Method and apparatus for aligning a photo-tunable microlens Z Bao, TN Kroupenkine, AM Lyons, ML Mandich, LT Manzione, ... US Patent 6,665,127, 2003 | 110 | 2003 |
Microfluidic crystal engineering of π-conjugated polymers G Wang, N Persson, PH Chu, N Kleinhenz, B Fu, M Chang, N Deb, Y Mao, ... Acs Nano 9 (8), 8220-8230, 2015 | 109 | 2015 |
Solvent based hydrogen bonding: Impact on poly (3-hexylthiophene) nanoscale morphology and charge transport characteristics M Chang, D Choi, B Fu, E Reichmanis ACS nano 7 (6), 5402-5413, 2013 | 103 | 2013 |