Juan Vilatela
Juan Vilatela
IMDEA Materials
Verified email at
Cited by
Cited by
High-performance carbon nanotube fiber
K Koziol, J Vilatela, A Moisala, M Motta, P Cunniff, M Sennett, A Windle
Science 318 (5858), 1892-1895, 2007
Structural composites for multifunctional applications: Current challenges and future trends
C González, JJ Vilatela, JM Molina-Aldareguía, CS Lopes, J LLorca
Progress in Materials Science 89, 194-251, 2017
Nanocarbon composites and hybrids in sustainability: a review
JJ Vilatela, D Eder
ChemSusChem 5 (3), 456-478, 2012
A model for the strength of yarn-like carbon nanotube fibers
JJ Vilatela, JA Elliott, AH Windle
ACS nano 5 (3), 1921-1927, 2011
Yarn‐like carbon nanotube fibers
JJ Vilatela, AH Windle
Advanced Materials 22 (44), 4959-4963, 2010
Antimicrobial metal–organic frameworks incorporated into electrospun fibers
J Quirós, K Boltes, S Aguado, RG de Villoria, JJ Vilatela, R Rosal
Chemical Engineering Journal 262, 189-197, 2015
Properties of composites of carbon nanotube fibres
RJ Mora, JJ Vilatela, AH Windle
Composites Science and Technology 69 (10), 1558-1563, 2009
Interlaminar toughening in structural carbon fiber/epoxy composites interleaved with carbon nanotube veils
Y Ou, C González, JJ Vilatela
Composites Part A: Applied Science and Manufacturing 124, 105477, 2019
Controlling carbon nanotube type in macroscopic fibers synthesized by the direct spinning process
V Reguero, B Alemán, B Mas, JJ Vilatela
Chemistry of Materials 26 (11), 3550-3557, 2014
Oxygen vacancies and interfaces enhancing photocatalytic hydrogen production in mesoporous CNT/TiO2 hybrids
A Moya, A Cherevan, S Marchesan, P Gebhardt, M Prato, D Eder, ...
Applied Catalysis B: Environmental 179, 574-582, 2015
Strong carbon nanotube fibers by drawing inspiration from polymer fiber spinning
B Alemán, V Reguero, B Mas, JJ Vilatela
ACS nano 9 (7), 7392-7398, 2015
Liquid infiltration into carbon nanotube fibers: effect on structure and electrical properties
J Qiu, J Terrones, JJ Vilatela, ME Vickers, JA Elliott, AH Windle
ACS nano 7 (10), 8412-8422, 2013
A perspective on high-performance CNT fibres for structural composites
A Mikhalchan, JJ Vilatela
Carbon 150, 191-215, 2019
Strong dependence of mechanical properties on fiber diameter for polymer− nanotube composite fibers: Differentiating defect from orientation effects
K Young, FM Blighe, JJ Vilatela, AH Windle, IA Kinloch, L Deng, ...
ACS nano 4 (11), 6989-6997, 2010
The hierarchical structure and properties of multifunctional carbon nanotube fibre composites
JJ Vilatela, R Khare, AH Windle
Carbon 50 (3), 1227-1234, 2012
Energy storage in structural composites by introducing CNT fiber/polymer electrolyte interleaves
E Senokos, Y Ou, JJ Torres, F Sket, C González, R Marcilla, JJ Vilatela
Scientific reports 8 (1), 3407, 2018
Macroscopic fibres of CNTs as electrodes for multifunctional electric double layer capacitors: from quantum capacitance to device performance
E Senokos, V Reguero, J Palma, JJ Vilatela, R Marcilla
Nanoscale 8 (6), 3620-3628, 2016
Thermoset curing through Joule heating of nanocarbons for composite manufacture, repair and soldering
B Mas, JP Fernández-Blázquez, J Duval, H Bunyan, JJ Vilatela
Carbon 63, 523-529, 2013
The effect of nanotube content and orientation on the mechanical properties of polymer–nanotube composite fibers: separating intrinsic reinforcement from orientational effects
FM Blighe, K Young, JJ Vilatela, AH Windle, IA Kinloch, L Deng, ...
Advanced Functional Materials 21 (2), 364-371, 2011
Interfacial charge transfer in functionalized multi-walled carbon nanotube@ TiO 2 nanofibres
A Saha, A Moya, A Kahnt, D Iglesias, S Marchesan, R Wannemacher, ...
Nanoscale 9 (23), 7911-7921, 2017
The system can't perform the operation now. Try again later.
Articles 1–20