Christoph Keplinger
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Stretchable, transparent, ionic conductors
C Keplinger, JY Sun, CC Foo, P Rothemund, GM Whitesides, Z Suo
Science 341 (6149), 984-987, 2013
Pneumatic Networks for Soft Robotics that Actuate Rapidly
B Mosadegh, P Polygerinos, C Keplinger, S Wennstedt, RF Shepherd, ...
Advanced Functional Materials 24 (15), 2163–2170, 2014
A highly stretchable autonomous self-healing elastomer
CH Li, C Wang, C Keplinger, JL Zuo, L Jin, Y Sun, P Zheng, Y Cao, ...
Nature chemistry 8 (6), 618-624, 2016
Ionic skin
JY Sun, C Keplinger, GM Whitesides, Z Suo
Advanced Materials 26 (45), 7608–7614, 2014
25th anniversary article: a soft future: from robots and sensor skin to energy harvesters
S Bauer, S Bauer‐Gogonea, I Graz, M Kaltenbrunner, C Keplinger, ...
Advanced Materials 26 (1), 149-162, 2014
Hydraulically amplified self-healing electrostatic actuators with muscle-like performance
E Acome, SK Mitchell, TG Morrissey, MB Emmett, C Benjamin, M King, ...
Science 359 (6371), 61-65, 2018
A transparent, self‐healing, highly stretchable ionic conductor
Y Cao, TG Morrissey, E Acome, SI Allec, BM Wong, C Keplinger, C Wang
Advanced Materials 29 (10), 1605099, 2017
Harnessing snap-through instability in soft dielectrics to achieve giant voltage-triggered deformation
C Keplinger, T Li, R Baumgartner, Z Suo, S Bauer
Soft Matter 8 (2), 285 - 288, 2012
Peano-HASEL actuators: Muscle-mimetic, electrohydraulic transducers that linearly contract on activation
N Kellaris, V Gopaluni Venkata, GM Smith, SK Mitchell, C Keplinger
Science Robotics 3 (14), eaar3276, 2018
Dielectric Elastomer Generators: How Much Energy Can Be Converted?
SJA Koh, C Keplinger, T Li, S Bauer, Z Suo
Mechatronics, IEEE/ASME Transactions on 16 (1), 33-41, 2011
Giant voltage-induced deformation in dielectric elastomers near the verge of snap-through instability
T Li, C Keplinger, R Baumgartner, S Bauer, W Yang, Z Suo
Journal of the Mechanics and Physics of Solids 61 (2), 611-628, 2013
Buckling pneumatic linear actuators inspired by muscle
D Yang, MS Verma, JH So, B Mosadegh, C Keplinger, B Lee, F Khashai, ...
Advanced Materials Technologies 1 (3), 2016
Röntgen’s electrode-free elastomer actuators without electromechanical pull-in instability
C Keplinger, M Kaltenbrunner, N Arnold, S Bauer
Proceedings of the National Academy of Sciences 107 (10), 4505, 2010
Inkjet Printing of Conductive Inks with High Lateral Resolution on Omniphobic “RF Paper” for Paper‐Based Electronics and MEMS
J Lessing, AC Glavan, SB Walker, C Keplinger, JA Lewis, GM Whitesides
Advanced Materials 26 (27), 4677–4682, 2014
Soft Actuators and Robots that Are Resistant to Mechanical Damage
RV Martinez, AC Glavan, C Keplinger, AI Oyetibo, GM Whitesides
Advanced Functional Materials 24 (20), 3003–3010, 2014
Flexible ferroelectret field-effect transistor for large-area sensor skins and microphones
I Graz, M Kaltenbrunner, C Keplinger, R Schwödiauer, S Bauer, ...
Applied physics letters 89, 073501, 2006
Flexible-foam-based capacitive sensor arrays for object detection at low cost
C Metzger, E Fleisch, J Meyer, M Dansachmüller, I Graz, M Kaltenbrunner, ...
Applied Physics Letters 92 (1), 2008
An easy‐to‐implement toolkit to create versatile and high‐performance HASEL actuators for untethered soft robots
SK Mitchell, X Wang, E Acome, T Martin, K Ly, N Kellaris, VG Venkata, ...
Advanced Science 6 (14), 1900178, 2019
Capacitive extensometry for transient strain analysis of dielectric elastomer actuators
C Keplinger, M Kaltenbrunner, N Arnold, S Bauer
Applied Physics Letters 92, 192903, 2008
HASEL artificial muscles for a new generation of lifelike robots—recent progress and future opportunities
P Rothemund, N Kellaris, SK Mitchell, E Acome, C Keplinger
Advanced materials 33 (19), 2003375, 2021
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