Add to ORKGConventional methods to engineer electroconductive hydrogels (ECHs) through the incorporation of conductive nanomaterials and polymers exhibit major technical limitations. These are mainly associated with the cytotoxicity, as well as poor solubility, processability, and biodegradability of their components. Here, we describe the engineering of a new class of ECHs through the functionalization of non-conductive polymers with a conductive choline-based bio-ionic liquid (Bio-IL). Bio-IL conjugated hydrogels exhibited a wide range of highly tunable physical properties, remarkable in vitro and in vivo biocompatibility, and high electrical conductivity without the need for additional conductive components. The engineered hydrogels could support t...
Conducting polymer hydrogels (CPHs) emerge as excellent functional materials, as they harness the ad...
Cardiac tissue regeneration strategies are increasingly taking advantage of electroactive scaffolds...
Recently, flexible electrolytes have aroused tremendous interest due to their wide applications in f...
Conventional methods to engineer electroconductive hydrogels (ECHs) through the incorporation of con...
Electroconductive hydrogels (ECHs) are highly hydrated 3D networks generated through the incorporati...
Conducting polymers (CPs) have exciting potential as scaffolds for tissue engineering, typically app...
[[abstract]]Conductive hydrogel, with electroconductive properties and high water content in a three...
Hydrogels are widely used as cell-culture platforms for various biomedical applications. With the bi...
Injectable hydrogels made of degradable biomaterials can function as both physical support and cell ...
In the pursuit of new strategies for the design and synthesis of high performance, physically associ...
High conductivity, large mechanical strength, and elongation are important parameters for soft elect...
Cardiac tissue engineering is a promising strategy to treat heart failure. Yet, several issues remai...
Synthetic conductive biopolymers have gained increasing interest in tissue engineering, as they can ...
Myocardial infarction (MI) leads to a multi-phase reparative process at the site of damaged heart th...
In recent years, gels based on ionic liquids incorporated into polymer matrices, namely iongels, hav...
Conducting polymer hydrogels (CPHs) emerge as excellent functional materials, as they harness the ad...
Cardiac tissue regeneration strategies are increasingly taking advantage of electroactive scaffolds...
Recently, flexible electrolytes have aroused tremendous interest due to their wide applications in f...
Conventional methods to engineer electroconductive hydrogels (ECHs) through the incorporation of con...
Electroconductive hydrogels (ECHs) are highly hydrated 3D networks generated through the incorporati...
Conducting polymers (CPs) have exciting potential as scaffolds for tissue engineering, typically app...
[[abstract]]Conductive hydrogel, with electroconductive properties and high water content in a three...
Hydrogels are widely used as cell-culture platforms for various biomedical applications. With the bi...
Injectable hydrogels made of degradable biomaterials can function as both physical support and cell ...
In the pursuit of new strategies for the design and synthesis of high performance, physically associ...
High conductivity, large mechanical strength, and elongation are important parameters for soft elect...
Cardiac tissue engineering is a promising strategy to treat heart failure. Yet, several issues remai...
Synthetic conductive biopolymers have gained increasing interest in tissue engineering, as they can ...
Myocardial infarction (MI) leads to a multi-phase reparative process at the site of damaged heart th...
In recent years, gels based on ionic liquids incorporated into polymer matrices, namely iongels, hav...
Conducting polymer hydrogels (CPHs) emerge as excellent functional materials, as they harness the ad...
Cardiac tissue regeneration strategies are increasingly taking advantage of electroactive scaffolds...
Recently, flexible electrolytes have aroused tremendous interest due to their wide applications in f...