Add to ORKGA biodegradable electroactive material can be doped with a drug and the drug can be delivered to a living subject by stimulating the material with an electrical potential. The material (in this case a polymer) has an electrochemically responsive oligoaniline block terminated with a carboxylic acid moiety and is linked to an alcohol-terminated diol by an ester bond. Advantageously, the diol is PEG-400, PEG-2000, PCL-530, or PCL-2000
Implantable drug release platforms that offer wirelessly programmable control over pharmacokinetics ...
Over the last 40 years, electrically conductive polymers have become well established as important e...
textThis dissertation focuses on the development of biomaterials that could be used to enhance the r...
We report biodegradable electroactive polymer (EAP)-based materials and their application as drug de...
Biomaterials capable of precisely controlling the delivery of agrochemicals/biologics/drugs/fragranc...
Conventional delivery systems for therapeutic agents are administered orally and are designed to pro...
The development of stimuli‐responsive drug delivery systems offers significant opportunities for inn...
Conductive materials have played a significant role in advancing society into the digital era. Such ...
Embodiments of the present disclosure provide for electroactive supramolecular polymeric assemblies,...
Electroactive hydrogels based on derivatives of polyethyleneglycol (PEG), chitosan and polypyrrole w...
Electroactive biomaterials are a new generation of “smart” biomaterials based on intrinsically condu...
Conducting polymers such as polypyrrole (PPy) can be used as electrically responsive drug delivery s...
The use of stimuli responsive materials in drug delivery systems is an established field in modern m...
Electrical stimulation to affect localised and controlled release of therapeutic drugs is becoming a...
Biodegradable, bioactive-based polymers have been successfully employed as sustained bioactive deliv...
Implantable drug release platforms that offer wirelessly programmable control over pharmacokinetics ...
Over the last 40 years, electrically conductive polymers have become well established as important e...
textThis dissertation focuses on the development of biomaterials that could be used to enhance the r...
We report biodegradable electroactive polymer (EAP)-based materials and their application as drug de...
Biomaterials capable of precisely controlling the delivery of agrochemicals/biologics/drugs/fragranc...
Conventional delivery systems for therapeutic agents are administered orally and are designed to pro...
The development of stimuli‐responsive drug delivery systems offers significant opportunities for inn...
Conductive materials have played a significant role in advancing society into the digital era. Such ...
Embodiments of the present disclosure provide for electroactive supramolecular polymeric assemblies,...
Electroactive hydrogels based on derivatives of polyethyleneglycol (PEG), chitosan and polypyrrole w...
Electroactive biomaterials are a new generation of “smart” biomaterials based on intrinsically condu...
Conducting polymers such as polypyrrole (PPy) can be used as electrically responsive drug delivery s...
The use of stimuli responsive materials in drug delivery systems is an established field in modern m...
Electrical stimulation to affect localised and controlled release of therapeutic drugs is becoming a...
Biodegradable, bioactive-based polymers have been successfully employed as sustained bioactive deliv...
Implantable drug release platforms that offer wirelessly programmable control over pharmacokinetics ...
Over the last 40 years, electrically conductive polymers have become well established as important e...
textThis dissertation focuses on the development of biomaterials that could be used to enhance the r...