Martin Kaltenbrunner
Martin Kaltenbrunner
Soft Matter Physics and LIT Soft Materials Lab, Johannes Kepler University Linz
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An ultra-lightweight design for imperceptible plastic electronics
M Kaltenbrunner, T Sekitani, J Reeder, T Yokota, K Kuribara, T Tokuhara, ...
Nature 499 (7459), 458-463, 2013
Ultrathin and lightweight organic solar cells with high flexibility
M Kaltenbrunner, MS White, ED Głowacki, T Sekitani, T Someya, ...
Nature communications 3 (1), 1-7, 2012
Ultrathin, highly flexible and stretchable PLEDs
MS White, M Kaltenbrunner, ED Głowacki, K Gutnichenko, G Kettlgruber, ...
Nature Photonics 7 (10), 811-816, 2013
Flexible high power-per-weight perovskite solar cells with chromium oxide–metal contacts for improved stability in air
M Kaltenbrunner, G Adam, ED Głowacki, M Drack, R Schwödiauer, ...
Nature materials 14 (10), 1032-1039, 2015
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
Printable elastic conductors with a high conductivity for electronic textile applications
N Matsuhisa, M Kaltenbrunner, T Yokota, H Jinno, K Kuribara, T Sekitani, ...
Nature communications 6, 7461, 2015
Ultraflexible organic photonic skin
T Yokota, P Zalar, M Kaltenbrunner, H Jinno, N Matsuhisa, H Kitanosako, ...
Science advances 2 (4), e1501856, 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), 4505-4510, 2010
Ultraflexible, large-area, physiological temperature sensors for multipoint measurements
T Yokota, Y Inoue, Y Terakawa, J Reeder, M Kaltenbrunner, T Ware, ...
Proceedings of the National Academy of Sciences 112 (47), 14533-14538, 2015
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 (7), 073501, 2006
Hydrogen‐bonded semiconducting pigments for air‐stable field‐effect transistors
ED Głowacki, M Irimia‐Vladu, M Kaltenbrunner, J Gsiorowski, MS White, ...
Advanced Materials 25 (11), 1563-1569, 2013
Instant tough bonding of hydrogels for soft machines and electronics
D Wirthl, R Pichler, M Drack, G Kettlguber, R Moser, R Gerstmayr, ...
Science advances 3 (6), e1700053, 2017
Arrays of ultracompliant electrochemical dry gel cells for stretchable electronics
M Kaltenbrunner, G Kettlgruber, C Siket, R Schwödiauer, S Bauer
Advanced materials 22 (18), 2065-2067, 2010
Imperceptible magnetoelectronics
M Melzer, M Kaltenbrunner, D Makarov, D Karnaushenko, ...
Nature communications 6 (1), 1-8, 2015
Mechanically adaptive organic transistors for implantable electronics
J Reeder, M Kaltenbrunner, T Ware, D Arreaga‐Salas, ...
Advanced Materials 26 (29), 4967-4973, 2014
Capacitive extensometry for transient strain analysis of dielectric elastomer actuators
C Keplinger, M Kaltenbrunner, N Arnold, S Bauer
Applied Physics Letters 92 (19), 192903, 2008
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), 013506, 2008
Wearable magnetic field sensors for flexible electronics
M Melzer, JI Mönch, D Makarov, Y Zabila, GS Cañón Bermúdez, ...
Advanced Materials 27 (7), 1274-1280, 2015
Method for measuring energy generation and efficiency of dielectric elastomer generators
R Kaltseis, C Keplinger, R Baumgartner, M Kaltenbrunner, T Li, P Mächler, ...
Applied Physics Letters 99 (16), 162904, 2011
An imperceptible plastic electronic wrap
M Drack, I Graz, T Sekitani, T Someya, M Kaltenbrunner, S Bauer
Advanced Materials 27 (1), 34-40, 2015
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