Add to ORKGTechnical textiles for medical applications are a research expanding field. One of the added values of these materials can be suitable to contain and release active ingredients in a controlled manner. A possible alternative to obtain fabrics with controlled drug release properties could lie in the modification of fiber-active principle bonds, so that you get a proper release for each particular application. R & D currently developing drug delivery systems aims to achieve a controlled release of an active principle during a predetermined time. This is done in order to avoid the administration of several doses of drugs or cosmetic products and thus make the patient follow the therapy more easily. The influence of surface modification of fiber...
Investigations focused on physico-chemical modifications of a polyethylene terephthalate (PET) nonwo...
This paper provides a picture of using plasma treatment as a means for textile modification. It disc...
The surface of high-performance poly(ethylene terephthalate) (PET) fibers is difficult to wet and im...
Technical textiles for medical applications are a research expanding field. One of the added values...
Cosmetic and medical applications of technical textiles are a research expanding field. One of the a...
Textiles lie at the interface between human body and the environment and cover the majority of body ...
Medical applications of technical textiles are an expanding field of research. One of the added valu...
Presented work focuses on chemical and physical properties of plasma modified polymeric macro-fibers...
One of the new trends in textile biomaterials research is to deliver active compounds locally in the...
Presented work focuses on chemical and physical properties of plasma modified polymeric macro-fibers...
Mathematical drug release modelling of biodegradable polymeric systems by microencapsulation technol...
There is a growing interest in the application of cosmeto-textiles to incorporate durable fragrances...
This study examines the effects of an atmospheric pressure plasma (APP) pre-treatment on the shrink ...
The article discusses the possibility of using plasma modification to get anti adhesive properties o...
Surface modification with the plasma of the direct current reactive magnetron sputtering has demonst...
Investigations focused on physico-chemical modifications of a polyethylene terephthalate (PET) nonwo...
This paper provides a picture of using plasma treatment as a means for textile modification. It disc...
The surface of high-performance poly(ethylene terephthalate) (PET) fibers is difficult to wet and im...
Technical textiles for medical applications are a research expanding field. One of the added values...
Cosmetic and medical applications of technical textiles are a research expanding field. One of the a...
Textiles lie at the interface between human body and the environment and cover the majority of body ...
Medical applications of technical textiles are an expanding field of research. One of the added valu...
Presented work focuses on chemical and physical properties of plasma modified polymeric macro-fibers...
One of the new trends in textile biomaterials research is to deliver active compounds locally in the...
Presented work focuses on chemical and physical properties of plasma modified polymeric macro-fibers...
Mathematical drug release modelling of biodegradable polymeric systems by microencapsulation technol...
There is a growing interest in the application of cosmeto-textiles to incorporate durable fragrances...
This study examines the effects of an atmospheric pressure plasma (APP) pre-treatment on the shrink ...
The article discusses the possibility of using plasma modification to get anti adhesive properties o...
Surface modification with the plasma of the direct current reactive magnetron sputtering has demonst...
Investigations focused on physico-chemical modifications of a polyethylene terephthalate (PET) nonwo...
This paper provides a picture of using plasma treatment as a means for textile modification. It disc...
The surface of high-performance poly(ethylene terephthalate) (PET) fibers is difficult to wet and im...