High-speed electrically actuated elastomers with strain greater than 100% R Pelrine, R Kornbluh, Q Pei, J Joseph Science 287 (5454), 836-839, 2000 | 3843 | 2000 |
Polymer light-emitting electrochemical cells Q Pei, G Yu, C Zhang, Y Yang, AJ Heeger Science 269 (5227), 1086-1088, 1995 | 2163 | 1995 |
Advances in dielectric elastomers for actuators and artificial muscles P Brochu, Q Pei Macromolecular rapid communications 31 (1), 10-36, 2010 | 1649 | 2010 |
Electroactive polymer electrodes RE Pelrine, RD Kornbluh, Q Pei, JP Joseph US Patent 6,583,533, 2003 | 1456 | 2003 |
Semiconducting polymers: a new class of solid-state laser materials F Hide, MA Diaz-Garcia, BJ Schwartz, MR Andersson, Q Pei, AJ Heeger Science 273 (5283), 1833-1836, 1996 | 1246 | 1996 |
Efficient photoluminescence and electroluminescence from a soluble polyfluorene Q Pei, Yang Journal of the American Chemical Society 118 (31), 7416-7417, 1996 | 1008 | 1996 |
Elastomeric polymer light-emitting devices and displays J Liang, L Li, X Niu, Z Yu, Q Pei Nature Photonics 7 (10), 817-824, 2013 | 987 | 2013 |
High-field deformation of elastomeric dielectrics for actuators R Pelrine, R Kornbluh, J Joseph, R Heydt, Q Pei, S Chiba Materials Science and Engineering: C 11 (2), 89-100, 2000 | 944 | 2000 |
Electrochromic and highly stable poly (3, 4-ethylenedioxythiophene) switches between opaque blue-black and transparent sky blue Q Pei, G Zuccarello, M Ahlskog, O Inganäs Polymer 35 (7), 1347-1351, 1994 | 860 | 1994 |
Highly flexible silver nanowire electrodes for shape-memory polymer light-emitting diodes. Z Yu, Q Zhang, L Li, Q Chen, X Niu, J Liu, Q Pei Advanced materials (Deerfield Beach, Fla.) 23 (5), 664-668, 2010 | 785 | 2010 |
Polymer light-emitting electrochemical cells: in situ formation of a light-emitting p− n junction Q Pei, Y Yang, G Yu, C Zhang, AJ Heeger Journal of the American Chemical Society 118 (16), 3922-3929, 1996 | 760 | 1996 |
Silver nanowire percolation network soldered with graphene oxide at room temperature and its application for fully stretchable polymer light-emitting diodes J Liang, L Li, K Tong, Z Ren, W Hu, X Niu, Y Chen, Q Pei ACS nano 8 (2), 1590-1600, 2014 | 685 | 2014 |
Large-area display textiles integrated with functional systems X Shi, Y Zuo, P Zhai, J Shen, Y Yang, Z Gao, M Liao, J Wu, J Wang, X Xu, ... Nature 591 (7849), 240-245, 2021 | 664 | 2021 |
Rolled electroactive polymers Q Pei, RE Pelrine, RD Kornbluh, SE Stanford, NA Bonwit, JR Heim US Patent 6,891,317, 2005 | 634 | 2005 |
Dielectric elastomers: generator mode fundamentals and applications R Pelrine, RD Kornbluh, J Eckerle, P Jeuck, S Oh, Q Pei, S Stanford Smart Structures and Materials 2001: Electroactive Polymer Actuators and …, 2001 | 610 | 2001 |
Intrinsically stretchable polymer light‐emitting devices using carbon nanotube‐polymer composite electrodes Z Yu, X Niu, Z Liu, Q Pei Advanced materials 34 (23), 3989-3994, 2011 | 605 | 2011 |
Electroactive polymer sensors RE Pelrine, RD Kornbluh, Q Pei, JS Eckerle US Patent 6,809,462, 2004 | 530 | 2004 |
Electronic muscles and skins: a review of soft sensors and actuators D Chen, Q Pei Chemical reviews 117 (17), 11239-11268, 2017 | 491 | 2017 |
A water-based silver-nanowire screen-print ink for the fabrication of stretchable conductors and wearable thin-film transistors J Liang, K Tong, Q Pei Advanced Materials 28 (28), 2016 | 490 | 2016 |
Electrochemical applications of the bending beam method. 1. Mass transport and volume changes in polypyrrole during redox Q Pei, O Inganäs The Journal of Physical Chemistry 96 (25), 10507-10514, 1992 | 489 | 1992 |