Soo Jin Adrian Koh
Soo Jin Adrian Koh
Max Planck Institute for Intelligent Systems, Department of Robotic Materials
Verified email at is.mpg.de
Title
Cited by
Cited by
Year
Dielectric elastomer generators: How much energy can be converted?
SJA Koh, C Keplinger, T Li, S Bauer, Z Suo
IEEE/ASME Transactions on mechatronics 16 (1), 33-41, 2010
3132010
Maximal energy that can be converted by a dielectric elastomer generator
SJA Koh, X Zhao, Z Suo
Applied Physics Letters 94 (26), 262902, 2009
3112009
Mechanisms of large actuation strain in dielectric elastomers
SJA Koh, T Li, J Zhou, X Zhao, W Hong, J Zhu, Z Suo
Journal of Polymer Science Part B: Polymer Physics 49 (7), 504-515, 2011
2872011
Model of dissipative dielectric elastomers
C Chiang Foo, S Cai, S Jin Adrian Koh, S Bauer, Z Suo
Journal of Applied Physics 111 (3), 034102, 2012
2212012
Molecular dynamics simulation of a solid platinum nanowire under uniaxial tensile strain: Temperature and strain-rate effects
SJA Koh, HP Lee, C Lu, QH Cheng
Physical Review B 72 (8), 085414, 2005
2092005
Molecular dynamics simulation of size and strain rate dependent mechanical response of FCC metallic nanowires
SJA Koh, HP Lee
Nanotechnology 17 (14), 3451, 2006
2032006
Nonequilibrium thermodynamics of dielectric elastomers
X Zhao, SJA Koh, Z Suo
International journal of applied mechanics 3 (02), 203-217, 2011
1442011
Natural rubber for sustainable high-power electrical energy generation
R Kaltseis, C Keplinger, SJA Koh, R Baumgartner, YF Goh, WH Ng, ...
RSC Advances 4 (53), 27905-27913, 2014
1102014
Performance of dissipative dielectric elastomer generators
C Chiang Foo, S Jin Adrian Koh, C Keplinger, R Kaltseis, S Bauer, Z Suo
Journal of Applied Physics 111 (9), 094107, 2012
942012
Shock-Induced Localized Amorphization in Metallic Nanorods with Strain-Rate-Dependent Characteristics
ASJ Koh, HP Lee
Nano Letters 6 (10), 2260-2267, 2006
572006
Wave propagation in fractal-inspired self-similar beam lattices
QJ Lim, P Wang, SJA Koh, EH Khoo, K Bertoldi
Applied Physics Letters 107 (22), 221911, 2015
392015
High-performance electromechanical transduction using laterally-constrained dielectric elastomers part I: Actuation processes
SJA Koh, C Keplinger, R Kaltseis, CC Foo, R Baumgartner, S Bauer, ...
Journal of the Mechanics and Physics of Solids 105, 81-94, 2017
312017
Continuum shell model for buckling of armchair carbon nanotubes under compression or torsion
AN Roy Chowdhury, CM Wang, SJA Koh
International Journal of Applied Mechanics 6 (01), 1450006, 2014
212014
Electrically-induced actuation of acrylic-based dielectric elastomers in excess of 500% strain
YF Goh, S Akbari, TV Khanh Vo, SJA Koh
Soft robotics 5 (6), 675-684, 2018
182018
Damage quantification of flexurally loaded RC slab using frequency response data
SJA Koh, M Maalej, ST Quek
Structural Health Monitoring 3 (4), 293-311, 2004
182004
Giant continuously-tunable actuation of a dielectric elastomer ring actuator
YS Teh, SJA Koh
Extreme Mechanics Letters 9, 195-203, 2016
162016
Liquid-metal-elastomer foam for moldable multi-functional triboelectric energy harvesting and force sensing
S Nayak, Y Li, W Tay, E Zamburg, D Singh, C Lee, SJA Koh, P Chia, ...
Nano Energy 64, 103912, 2019
142019
Operational limits of a non-homogeneous dielectric elastomer transducer
AT Mathew, SJA Koh
International Journal of Smart and Nano Materials 8 (4), 214-231, 2017
142017
A Lesson from Plants: High‐Speed Soft Robotic Actuators
R Baumgartner, A Kogler, JM Stadlbauer, CC Foo, R Kaltseis, ...
Advanced Science 7 (5), 1903391, 2020
102020
Molecular dynamics simulation and continuum shell model for buckling analysis of carbon nanotubes
CM Wang, ANR Chowdhury, SJA Koh, YY Zhang
Modeling of Carbon Nanotubes, Graphene and their Composites, 239-273, 2014
92014
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Articles 1–20