Add to ORKGResponsive polymer materials can adapt to surrounding environments, regulate transport of ions and molecules, change wettability and adhesion of different species on external stimuli, or convert chemical and biochemical signals into optical, electrical, thermal and mechanical signals, and vice versa. These materials are playing an increasingly important part in a diverse range of applications, such as drug delivery, diagnostics, tissue engineering and 'smart' optical systems, as well as biosensors, microelectromechanical systems, coatings and textiles. We review recent advances and challenges in the developments towards applications of stimuli-responsive polymeric materials that are self-assembled from nanostructured building blocks. We als...
Stimulus-responsive materials: This thesis describes the development of stimulus-responsive polymeri...
Stimuli-responsive polymers are materials that can display remarkable changes in their properties wi...
Dynamic and adaptive self-assembly systems are able to sense an external or internal (energy or matt...
Responsive polymer materials can adapt to surrounding environments, regulate transport of ions and m...
The rapidly-growing field of polymer stimuli-responsive materials (smart materials) resulted in many...
AbstractSmart polymeric materials respond with a considerable change in their properties to small ch...
Over the past 10 years, stimuli-responsive polymeric biomaterials have emerged as effective systems ...
Smart materials are materials that are capable of responding in a programmable and predictive manner...
Polymers are materials widely used in medical applications due to their wide variety, ease of proces...
In the past two decades, we have witnessed significant progress in developing high performance stimu...
abstract: Stimuli-responsive polymers or so-called “smart polymers” are macromolecules that are sens...
Stimuli-responsive polymers have been attracting great interest within the scientific community for ...
Stimuli-responsive polymer systems can be defined as functional materials that show physical or chem...
Smart polymers are the polymeric materials which respond to minute external stimuli are of utmost si...
Synthetic polymers are attracting great attention in the last decades for their use in the biomedica...
Stimulus-responsive materials: This thesis describes the development of stimulus-responsive polymeri...
Stimuli-responsive polymers are materials that can display remarkable changes in their properties wi...
Dynamic and adaptive self-assembly systems are able to sense an external or internal (energy or matt...
Responsive polymer materials can adapt to surrounding environments, regulate transport of ions and m...
The rapidly-growing field of polymer stimuli-responsive materials (smart materials) resulted in many...
AbstractSmart polymeric materials respond with a considerable change in their properties to small ch...
Over the past 10 years, stimuli-responsive polymeric biomaterials have emerged as effective systems ...
Smart materials are materials that are capable of responding in a programmable and predictive manner...
Polymers are materials widely used in medical applications due to their wide variety, ease of proces...
In the past two decades, we have witnessed significant progress in developing high performance stimu...
abstract: Stimuli-responsive polymers or so-called “smart polymers” are macromolecules that are sens...
Stimuli-responsive polymers have been attracting great interest within the scientific community for ...
Stimuli-responsive polymer systems can be defined as functional materials that show physical or chem...
Smart polymers are the polymeric materials which respond to minute external stimuli are of utmost si...
Synthetic polymers are attracting great attention in the last decades for their use in the biomedica...
Stimulus-responsive materials: This thesis describes the development of stimulus-responsive polymeri...
Stimuli-responsive polymers are materials that can display remarkable changes in their properties wi...
Dynamic and adaptive self-assembly systems are able to sense an external or internal (energy or matt...