Conductive polymeric-based electroactive scaffolds for tissue engineering applications: Current progress and challenges from biomaterials and manufacturing …
The practice of combining external stimulation therapy alongside stimuli-responsive bio-
scaffolds has shown massive potential for tissue engineering applications. One promising …
scaffolds has shown massive potential for tissue engineering applications. One promising …
Advances in agar-based composites: a comprehensive review
This review article explores the developments and applications in agar-based composites
(ABCs), emphasizing various constituents such as metals, clay/ceramic, graphene, and …
(ABCs), emphasizing various constituents such as metals, clay/ceramic, graphene, and …
Highly hydrophobic and superoleophilic agar/PVA aerogels for selective removal of oily substances from water
In this study, low-cost, environmentally friendly and porous agar/PVA aerogel sorbent
materials with highly hydrophobic property were fabricated for the selective separation of …
materials with highly hydrophobic property were fabricated for the selective separation of …
Electroconductive scaffolds based on gelatin and PEDOT: PSS for cardiac regeneration
Electroconductive biomaterials have been emerged to support the recovery of the
degenerated electrically conductive tissues, especially the cardiac ones after myocardial …
degenerated electrically conductive tissues, especially the cardiac ones after myocardial …
Fabrication methods of electroactive scaffold-based conducting polymers for tissue engineering application: a review
Conductive scaffolds, defined as scaffold systems capable of carrying electric current, have
been extensively researched for tissue engineering applications. Conducting polymers …
been extensively researched for tissue engineering applications. Conducting polymers …
Electroconductive and injectable hydrogels based on gelatin and PEDOT: PSS for a minimally invasive approach in nervous tissue regeneration
This work describes the development of electroconductive hydrogels as injectable matrices
for neural tissue regeneration by exploiting a biocompatible conductive polymer–poly (3, 4 …
for neural tissue regeneration by exploiting a biocompatible conductive polymer–poly (3, 4 …
Injectable conductive nanocomposite hydrogels for cardiac tissue engineering: Focusing on carbon and metal-based nanostructures
Cardiovascular diseases are the leading cause of death today and a significant public
health problem. Currently, there is no proper treatment for major cardiovascular diseases …
health problem. Currently, there is no proper treatment for major cardiovascular diseases …
Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
DA Ahmad Ruzaidi, MM Mahat, SA Shafiee… - Polymers, 2021 - mdpi.com
Scaffolds support and promote the formation of new functional tissues through cellular
interactions with living cells. Various types of scaffolds have found their way into biomedical …
interactions with living cells. Various types of scaffolds have found their way into biomedical …
Citric Acid and Polyvinyl Alcohol Induced PEDOT: PSS with Enhanced Electrical Conductivity and Stretchability for Eco‐Friendly, Self‐Healable, Wearable Organic …
L Lu, G Cao, Y Huang, Y Yan, Y Liang… - Macromolecular …, 2024 - Wiley Online Library
Abstract Poly (3, 4‐ethylenedioxythiophene): poly (styrene sulfonate)(PEDOT: PSS) is a
promising material for organic thermoelectric (TE) applications. However, it is challenging to …
promising material for organic thermoelectric (TE) applications. However, it is challenging to …
Exploring the potential of keratin-based biomaterials in orthopedic tissue engineering: a comprehensive review
H Diwan, MK Sah - Emergent Materials, 2023 - Springer
Orthopedic implants and bone regeneration are widely recognized as the most effective
treatments for bone tissue disorders. Despite this, there exists a substantial disparity …
treatments for bone tissue disorders. Despite this, there exists a substantial disparity …