Toribio Fernández Otero
Toribio Fernández Otero
Catedrático de Química-Física, Universidad Politécnica de Cartagena
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Cited by
Handbook of conducting polymers
TA Skotheim
CRC press, 1997
Handbook of Organic Conductive Molecules and Polymers, 4-Volume Set
HS Nalwa
Handbook of Organic Conductive Molecules and Polymers 4, 1997
Electrochemomechanical properties from a bilayer: polypyrrole/non-conducting and flexible material—artificial muscle
TF Otero, E Angulo, J Rodriguez, C Santamaria
Journal of Electroanalytical Chemistry 341 (1-2), 369-375, 1992
Biomimetic electrochemistry from conducting polymers. A review: artificial muscles, smart membranes, smart drug delivery and computer/neuron interfaces
TF Otero, JG Martinez, J Arias-Pardilla
Electrochimica Acta 84, 112-128, 2012
Artificial muscles with tactile sensitivity
TF Otero, MT Cortes
Advanced Materials 15 (4), 279-282, 2003
Soft and wet conducting polymers for artificial muscles
TF Otero, JM Sansieña
Advanced Materials 10 (6), 491-494, 1998
Polymer sensors and actuators
Y Osada, DE De Rossi
Springer Science & Business Media, 2000
Reinterpretation of polypyrrole electrochemistry after consideration of conformational relaxation processes
TF Otero, HJ Grande, J Rodríguez
The Journal of Physical Chemistry B 101 (19), 3688-3697, 1997
Artificial muscles from bilayer structures
TF Otero, J Rodriguez, E Angulo, C Santamaria
Synthetic metals 57 (1), 3713-3717, 1993
Bilayer dimensions and movement in artificial muscles
TF Otero, JM Sansinena
Bioelectrochemistry and bioenergetics 42 (2), 117-122, 1997
A new model for electrochemical oxidation of polypyrrole under conformational relaxation control
TF Otero, H Grande, J Rodriguez
Journal of Electroanalytical Chemistry 394 (1-2), 211-216, 1995
Fabrication of conductive electrospun silk fibroin scaffolds by coating with polypyrrole for biomedical applications
S Aznar-Cervantes, MI Roca, JG Martinez, L Meseguer-Olmo, JL Cenis, ...
Bioelectrochemistry 85, 36-43, 2012
Artificial muscles based on conducting polymers
TF Otero, JM Sansinena
Bioelectrochemistry and Bioenergetics 38 (2), 411-414, 1995
Electrochemical control of the morphology, adherence, appearance and growth of polypyrrole films
TF Otero, E De Larreta
Synthetic metals 26 (1), 79-88, 1988
Comparative study of conducting polymers by the ESCR model
TF Otero, I Boyano
The Journal of Physical Chemistry B 107 (28), 6730-6738, 2003
A solid state artificial muscle based on polypyrrole and a solid polymeric electrolyte working in air
JM Sansinena, V Olazabal, TF Otero, CNP Da Fonseca, MA De Paoli
Chemical Communications, 2217-2218, 1997
Intelligent Materials
R Metzger, JP Sauvage, JF Stoddart, KJ Kim, T Hirai, H Asanuma, ...
Royal Society of Chemistry, 2007
A sensing muscle
TF Otero, MT Cortes
Sensors and Actuators B: Chemical 96 (1-2), 152-156, 2003
Sensing characteristics of a conducting polymer/hydrogel hybrid microfiber artificial muscle
YA Ismail, JG Martínez, AS Al Harrasi, SJ Kim, TF Otero
Sensors and Actuators B: chemical 160 (1), 1180-1190, 2011
Biomimetic conducting polymers: synthesis, materials, properties, functions, and devices
TF Otero
Polymer Reviews 53 (3), 311-351, 2013
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