by Keyword: Pedotpss
García-Torres J, Colombi S, Macor LP, Alemán C, (2022). Multitasking smart hydrogels based on the combination of alginate and poly(3,4-ethylenedioxythiophene) properties: A review International Journal Of Biological Macromolecules 219, 312-332
Poly(3,4-ethylenedioxythiophene) (PEDOT), a very stable and biocompatible conducting polymer, and alginate (Alg), a natural water-soluble polysaccharide mainly found in the cell wall of various species of brown algae, exhibit very different but at the same complementary properties. In the last few years, the remarkable capacity of Alg to form hydrogels and the electro-responsive properties of PEDOT have been combined to form not only layered composites (PEDOT-Alg) but also interpenetrated multi-responsive PEDOT/Alg hydrogels. These materials have been found to display outstanding properties, such as electrical conductivity, piezoelectricity, biocompatibility, self-healing and re-usability properties, pH and thermoelectric responsiveness, among others. Consequently, a wide number of applications are being proposed for PEDOT-Alg composites and, especially, PEDOT/Alg hydrogels, which should be considered as a new kind of hybrid material because of the very different chemical nature of the two polymeric components. This review summarizes the applications of PEDOT-Alg and PEDOT/Alg in tissue interfaces and regeneration, drug delivery, sensors, microfluidics, energy storage and evaporators for desalination. Special attention has been given to the discussion of multi-tasking applications, while the new challenges to be tackled based on aspects not yet considered in either of the two polymers have also been highlighted.Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.
JTD Keywords: aerogels, composite, conducting polymer, conducting polymers, electrodes, pedotpss, ph, platform, release, scaffold, semi-interpenetrated hydrogels, Alginic acid, Conducting polymer, Drug-delivery, Semi-interpenetrated hydrogels
Enshaei, H, Molina, BG, Puiggali-Jou, A, Saperas, N, Aleman, C, (2022). Polypeptide hydrogel loaded with conducting polymer nanoparticles as electroresponsive delivery system of small hydrophobic drugs European Polymer Journal 173, 111199
A hydrogel/nanoparticle-loaded system for the controlled delivery of small hydrophobic drugs has been prepared using poly(gamma-glutamic acid) (PGGA), a naturally occurring biopolymer made of glutamic acid units connected by amide linkages between alpha-amino and gamma-carboxylic acid groups, and poly(3,4-ethylenedioxythiophene) (PEDOT), a very stable conducting polymer with excellent electrochemical response. Specifically, curcumin (CUR)-loaded PEDOT nanoparticles (PEDOT/CUR) were incorporated to the PGGA hydrogel during the crosslinking reaction. After chemical, morphological and electrochemical characterization, the release profiles of PEDOT/CUR and PGGA/PEDOT/CUR system have been compared in absence and presence of electrical stimuli, which consisted on the application of a voltage of -0.5 V for 15 min every 24 h. Results show that the release is higher for electrically stimulated systems by more than twice, even though due to its hydrophobicity and poor solubility in water the release was relatively slow in both cases. This feature could be advantageous when the therapeutic treatment requires slow, controlled and sustained CUR release.
JTD Keywords: 4-ethylenedioxythiophene), Acid, Controlled-release, Curcumi n, Curcumin, Electrostimulated release, Nanocarriers, Pedotpss, Poly( ?-glutamic acid), Poly(3