This book deals with an emerging nanofibre-making technology, electrospinning, the functionalities of electrospun nanofibres and their wound healing application. An important fundamental issue, fibre morphological evolution during electrospinning, is clarified. Effective techniques to improve the fibre toughness and control the surface wettability of nanofibre membrane have been developed. These functional nanofibre membranes have been used as dressing materials for healing skin wounds, and shown promising results. This work makes electrospun nanofibre membrane an ideal candidate for wound healing application
Nanofibers fabrication nowadays has become unimaginable without mentioning or research involving the...
Current strategies to treat chronic wounds offer limited relief to the 7.75 million patients who suf...
Wound dressings play an important role in a patient’s recovery from health problems, as unattended ...
Designing and development of new wound dressing materials is an incessant area of research in wound ...
This research contributes new knowledge to fundamental understanding and applications of nanofibre m...
With the increasing demand for wound care and treatment worldwide, traditional dressings have been u...
Nanotechnology is revolutionising the world of materials. The research and development of nanofibres...
Despite the advances that have been achieved in developing wound dressings to date, wound healing st...
Electrospinning technique has been extensively acknowledged as an efficient and convenient approach ...
The skin is periodically exposed to many external factors that affect it. Sometimes, these external ...
Electrospinning is a promising method for the rapid and cost-effective production of nanofibers from...
An effective wound dressing is not only able to protect the wound area from its surroundings to avoi...
Nanofibers are an important material for regenerative medicine as they have a commensurate morpholog...
Diabetic wounds are complications of diabetes which are caused by skin dystrophy because of local is...
Nanofibers offer potential applications in the biomedical field and they have become popular as they...
Nanofibers fabrication nowadays has become unimaginable without mentioning or research involving the...
Current strategies to treat chronic wounds offer limited relief to the 7.75 million patients who suf...
Wound dressings play an important role in a patient’s recovery from health problems, as unattended ...
Designing and development of new wound dressing materials is an incessant area of research in wound ...
This research contributes new knowledge to fundamental understanding and applications of nanofibre m...
With the increasing demand for wound care and treatment worldwide, traditional dressings have been u...
Nanotechnology is revolutionising the world of materials. The research and development of nanofibres...
Despite the advances that have been achieved in developing wound dressings to date, wound healing st...
Electrospinning technique has been extensively acknowledged as an efficient and convenient approach ...
The skin is periodically exposed to many external factors that affect it. Sometimes, these external ...
Electrospinning is a promising method for the rapid and cost-effective production of nanofibers from...
An effective wound dressing is not only able to protect the wound area from its surroundings to avoi...
Nanofibers are an important material for regenerative medicine as they have a commensurate morpholog...
Diabetic wounds are complications of diabetes which are caused by skin dystrophy because of local is...
Nanofibers offer potential applications in the biomedical field and they have become popular as they...
Nanofibers fabrication nowadays has become unimaginable without mentioning or research involving the...
Current strategies to treat chronic wounds offer limited relief to the 7.75 million patients who suf...
Wound dressings play an important role in a patient’s recovery from health problems, as unattended ...