Add to ORKGThe electro-responsiveness in blood plasma and in blood mimicking fluids of methacrylic acid modified Pluronic (P127) hydrogel is investigated. It is observed that the hydrogel's response to an applied potential, in all buffer solutions, is very high, and comparable in amplitude and time response to classic polyelectrolyte gels. The highest actuation amplitude is achieved in PBS, which is directly related to the largest current value obtained for that buffer. The electro-actuation achieved in blood plasma is comparable to that in KREBS and KCl buffers. The good performance in blood plasma is attributed to the low protein adhesion to hydrogel surface. Preliminary biocompatibility studies demonstrate that the investigated hydrogel can be cons...
Abstract—The correlation between the electrochemical (Donnan) potential and volume swelling was stud...
An electrochemical method has been developed for the probing of hydrogel-based molecularly imprinted...
The conducting polymer polypyrrole (PPy) was electrochemically grown on hydrogel scaffolds deposited...
The electro-responsiveness in blood plasma and in blood mimicking fluids of methacrylic acid modifie...
There is a growing interest in using hydrogels for biomedical applications, because of more favourab...
There is a growing interest in using hydrogels for biomedical applications, because of more favourab...
Abstract There is a growing interest in using hydrogels for biomedical applications, because of more...
Smart hydrogels for biomedical applications are highly researched materials. However, integrating th...
This dissertation describes experimental studies on the mechanisms underlying the dynamic response o...
Hydrogels, which are three-dimensional crosslinked hydrophilic polymers, have been used and studied ...
Interest in stimuli-responsive polymers is steadily increasing especially in the fields of controlle...
Novel artificial muscle materials were developed, which can be electrically actuated at near neutral...
Giving fundamental information on one of the most promising families of smart materials, electroacti...
Hydrogels based on the uncharged N-isopropylacrylamide and the ionic ampholyte N-acryloyl-L-histidin...
We report a novel biomacromolecular formula for the design of hemocompatible gel interfaces of <i>N<...
Abstract—The correlation between the electrochemical (Donnan) potential and volume swelling was stud...
An electrochemical method has been developed for the probing of hydrogel-based molecularly imprinted...
The conducting polymer polypyrrole (PPy) was electrochemically grown on hydrogel scaffolds deposited...
The electro-responsiveness in blood plasma and in blood mimicking fluids of methacrylic acid modifie...
There is a growing interest in using hydrogels for biomedical applications, because of more favourab...
There is a growing interest in using hydrogels for biomedical applications, because of more favourab...
Abstract There is a growing interest in using hydrogels for biomedical applications, because of more...
Smart hydrogels for biomedical applications are highly researched materials. However, integrating th...
This dissertation describes experimental studies on the mechanisms underlying the dynamic response o...
Hydrogels, which are three-dimensional crosslinked hydrophilic polymers, have been used and studied ...
Interest in stimuli-responsive polymers is steadily increasing especially in the fields of controlle...
Novel artificial muscle materials were developed, which can be electrically actuated at near neutral...
Giving fundamental information on one of the most promising families of smart materials, electroacti...
Hydrogels based on the uncharged N-isopropylacrylamide and the ionic ampholyte N-acryloyl-L-histidin...
We report a novel biomacromolecular formula for the design of hemocompatible gel interfaces of <i>N<...
Abstract—The correlation between the electrochemical (Donnan) potential and volume swelling was stud...
An electrochemical method has been developed for the probing of hydrogel-based molecularly imprinted...
The conducting polymer polypyrrole (PPy) was electrochemically grown on hydrogel scaffolds deposited...