Alvo Aabloo
Alvo Aabloo
Professor of Polymer Materials Technology, IMS Lab(, University of Tartu
Verified email at - Homepage
Cited by
Cited by
Surface resistance experiments with IPMC sensors and actuators
A Punning, M Kruusmaa, A Aabloo
Sensors and Actuators A: Physical 133 (1), 200-209, 2007
Ionic polymer–metal composite mechanoelectrical transduction: review and perspectives
D Pugal, K Jung, A Aabloo, KJ Kim
Polymer international 59 (3), 279-289, 2010
Atomic-scale properties of Ni-based FCC ternary, and quaternary alloys
A Tamm, A Aabloo, M Klintenberg, M Stocks, A Caro
Acta Materialia 99, 307-312, 2015
Ionic and capacitive artificial muscle for biomimetic soft robotics
I Must, F Kaasik, I Põldsalu, L Mihkels, U Johanson, A Punning, A Aabloo
Advanced Engineering Materials 17 (1), 84-94, 2015
A self-sensing ion conducting polymer metal composite (IPMC) actuator
A Punning, M Kruusmaa, A Aabloo
Sensors and Actuators A: Physical 136 (2), 656-664, 2007
Flexible supercapacitor-like actuator with carbide-derived carbon electrodes
J Torop, V Palmre, M Arulepp, T Sugino, K Asaka, A Aabloo
Carbon 49 (9), 3113-3119, 2011
A biologically inspired ray-like underwater robot with electroactive polymer pectoral fins
A Punning, M Anton, M Kruusmaa, A Aabloo
International IEEE conference on mechatronics and robotics 2004, 241-245, 2004
Nanocarbon based ionic actuators—a review
U Kosidlo, M Omastová, M Micusik, G Ćirić-Marjanović, ...
Smart Materials and Structures 22 (10), 104022, 2013
Molecular dynamics modeling of proton transport in nafion and hyflon nanostructures
J Karo, A Aabloo, JO Thomas, D Brandell
The Journal of Physical Chemistry B 114 (18), 6056-6064, 2010
Miniature crystal models of cellulose polymorphs and other carbohydrates
AD French, DP Miller, A Aabloo
International Journal of Biological Macromolecules 15 (1), 30-36, 1993
An explicit physics-based model of ionic polymer-metal composite actuators
D Pugal, KJ Kim, A Aabloo
Journal of Applied Physics 110 (8), 2011
In search of better electroactive polymer actuator materials: PPy versus PEDOT versus PEDOT–PPy composites
R Temmer, A Maziz, C Plesse, A Aabloo, F Vidal, T Tamm
Smart Materials and Structures 22 (10), 104006, 2013
Modelling electrode material utilization in the trench model 3D-microbattery by finite element analysis
V Zadin, H Kasemägi, A Aabloo, D Brandell
Journal of Power Sources 195 (18), 6218-6224, 2010
Ionic electroactive polymer artificial muscles in space applications
A Punning, KJ Kim, V Palmre, F Vidal, C Plesse, N Festin, A Maziz, ...
Scientific reports 4 (1), 6913, 2014
Nanoporous carbon-based electrodes for high strain ionomeric bending actuators
V Palmre, D Brandell, U Mäeorg, J Torop, O Volobujeva, A Punning, ...
Smart materials and structures 18 (9), 095028, 2009
Nanothorn electrodes for ionic polymer-metal composite artificial muscles
V Palmre, D Pugal, KJ Kim, KK Leang, K Asaka, A Aabloo
Scientific reports 4 (1), 6176, 2014
Self-sensing ionic polymer actuators: a review
K Kruusamäe, A Punning, A Aabloo, K Asaka
Actuators 4 (1), 17-38, 2015
Electroactive polymer actuators with carbon aerogel electrodes
V Palmre, E Lust, A Jänes, M Koel, AL Peikolainen, J Torop, U Johanson, ...
Journal of Materials Chemistry 21 (8), 2577-2583, 2011
Self‐sensing ionic polymer–metal composite actuating device with patterned surface electrodes
K Kruusamäe, P Brunetto, S Graziani, A Punning, G Di Pasquale, ...
Polymer International 59 (3), 300-304, 2010
Ionic liquid-based actuators working in air: The effect of ambient humidity
I Must, V Vunder, F Kaasik, I Põldsalu, U Johanson, A Punning, A Aabloo
Sensors and Actuators B: Chemical 202, 114-122, 2014
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