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Synergistic computational-experimental approach to improve ionene polymer-based functional hydrogels

Autor
Bachl, J.; Zanuy, D.; Lopez, D.; Revilla-López, G.; Cativiela, C.; Aleman, C.; Díaz-Díaz, D.
Tipus d'activitat
Article en revista
Revista
Advanced functional materials
Data de publicació
2014-08-20
Volum
24
Número
31
Pàgina inicial
4893
Pàgina final
4904
DOI
https://doi.org/10.1002/adfm.201304230 Obrir en finestra nova
Projecte finançador
POLIMEROS CONDUCTORES Y SUS DERIVADOS HIBRIDOS CON APLICACIONES AVANZADAS
Repositori
http://hdl.handle.net/2117/24118 Obrir en finestra nova
URL
http://onlinelibrary.wiley.com/doi/10.1002/adfm.201304230/pdf Obrir en finestra nova
Resum
The manifold applications of ionene-based materials such as hydrogels in daily life, biomedical sciences, and industrial processes are a consequence of their unique physical and chemical properties, which are governed by a judicious balance between multiple non-covalent interactions. However, one of the most critical aspects identified for a broader use of different polyelectrolytes is the need of raising their gelation efficiency. This work focuses on surfactant-free ionene polymers 1-3 contain...
Citació
Bachl, J. [et al.]. Synergistic computational-experimental approach to improve ionene polymer-based functional hydrogels. "Advanced functional materials", 20 Agost 2014, vol. 24, núm. 31, p. 4893-4904.
Paraules clau
BINDING, DISPERSION, GELATOR, GENE DELIVERY, MECHANICAL-PROPERTIES, MOLECULAR-DYNAMICS SIMULATION, OLIGOMERIC ELECTROLYTE, QUATERNARY AMMONIUM, STRENGTH, WALLED CARBON NANOTUBES
Grup de recerca
CRnE - Centre de Recerca en Ciència i Enginyeria Multiescala de Barcelona
IMEM-BRT- Innovation in Materials and Molecular Engineering - Biomaterials for Regenerative Therapies

Participants