The work presented here develops a new type of electrochemically active hydrogel based on alginate. By oxidizing a copper electrode in the presence of alginate, it is shown that the alginate will become cross linked at the electrode surface. By modulating the growth time or growth potentials, the mechanical properties of the gels can be modulated, with time being the easiest to control. It was also shown that with the reduction of the copper ions in the gel, the structure can be de-cross linked. This mechanism was harnessed to provide fluidic delivery of a small molecule representing a drug, with the optimum growth conditions for this applications found to be the application of a 2.5 V potential difference for one hour versus an aluminum co...
Alginate has been exploited commercially for decades in foods, textiles, paper, pharmaceutical indus...
The simplest approach to enhance alginate hydrogel characteristics and functional properties is to r...
Three-dimensional porous Co–Ni films/alginate hybrid materials have been successfully prepared by el...
Hydrogels underpin many applications in tissue engineering, cell encapsulation, drug delivery and bi...
Alginate hydrogels are an import class of ionic biopolymers for medical and biotechnological applic...
Hydrogel has been regarded as one significant biomaterial in biomedical and tissue engineering due t...
Abstract The contamination of chronic wound with bacteria especially methicillin-resistant Staphyloc...
We introduce a simple approach to fabricate fluorescent multivalent metal ion-free alginate hydrogel...
Bioengineering applications require materials that offer tunable and precise control over material p...
We introduce a simple approach to fabricate fluorescent multivalent metal ion-free alginate hydrogel...
The fabrication of hydrogel electrode materials via inkjet/extrusion printing, wet-spinning and phys...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. Hydrogels composed of calcium cross-linked...
Alginate has been exploited commercially for decades in foods, textiles, paper, pharmaceutical indus...
Alginate hydrogels are commonly used in biomedical applications such as scaffolds for tissue enginee...
A novel microfluidic channel device with programmable in situ formation of a hydrogel 3D network was...
Alginate has been exploited commercially for decades in foods, textiles, paper, pharmaceutical indus...
The simplest approach to enhance alginate hydrogel characteristics and functional properties is to r...
Three-dimensional porous Co–Ni films/alginate hybrid materials have been successfully prepared by el...
Hydrogels underpin many applications in tissue engineering, cell encapsulation, drug delivery and bi...
Alginate hydrogels are an import class of ionic biopolymers for medical and biotechnological applic...
Hydrogel has been regarded as one significant biomaterial in biomedical and tissue engineering due t...
Abstract The contamination of chronic wound with bacteria especially methicillin-resistant Staphyloc...
We introduce a simple approach to fabricate fluorescent multivalent metal ion-free alginate hydrogel...
Bioengineering applications require materials that offer tunable and precise control over material p...
We introduce a simple approach to fabricate fluorescent multivalent metal ion-free alginate hydrogel...
The fabrication of hydrogel electrode materials via inkjet/extrusion printing, wet-spinning and phys...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. Hydrogels composed of calcium cross-linked...
Alginate has been exploited commercially for decades in foods, textiles, paper, pharmaceutical indus...
Alginate hydrogels are commonly used in biomedical applications such as scaffolds for tissue enginee...
A novel microfluidic channel device with programmable in situ formation of a hydrogel 3D network was...
Alginate has been exploited commercially for decades in foods, textiles, paper, pharmaceutical indus...
The simplest approach to enhance alginate hydrogel characteristics and functional properties is to r...
Three-dimensional porous Co–Ni films/alginate hybrid materials have been successfully prepared by el...
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