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Developing novel spinning methods to...

Mirabedini, Azadeh.

Developing novel spinning methods to fabricate continuous multifunctional fibres for bioapplications

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Developing novel spinning methods to fabricate continuous multifunctional fibres for bioapplicationsby Azadeh Mirabedini.
作者:	Mirabedini, Azadeh.
出版者:	Cham :Springer International Publishing :2018.
面頁冊數:	xxxi, 146 p. :digital ;24 cm.
Contained By:	Springer eBooks
標題:	Conducting polymers.
電子資源:	http://dx.doi.org/10.1007/978-3-319-95378-6
ISBN:	9783319953786$q(electronic bk.)

Developing novel spinning methods to fabricate continuous multifunctional fibres for bioapplications
Mirabedini, Azadeh.

Developing novel spinning methods to fabricate continuous multifunctional fibres for bioapplications[electronic resource] /by Azadeh Mirabedini. - Cham :Springer International Publishing :2018. - xxxi, 146 p. :digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

Introduction -- General Experimental -- Preparation and Characterization of Novel Hybrid Hydrogel Fibres -- Fabrication of Coaxial Wet-spun Biofibres containing Graphene Core -- Development of One-Dimensional Triaxial Fibres as Potential Bio-Battery Structures -- Conclusion and Future Work.

This book describes the development of three dimensional electroactive fibres using a novel coaxial wet-spinning approach from organic conductors in combination with non-conducting hydrogel polymers. This book also presents the characterization and evaluation of multiaxial biofibres in terms of mechanical, physical, electrochemical and biological properties, and explores their use in a diverse range of applications including implantable electrodes, drug delivery systems and energy-storage systems. In the first chapter, the author highlights the significance of engineering three dimensional fibres, introduces the involved hydrogels and organic conductors with emphasis on their biomedical application, and collects some of the previously established methods for fabrication of biofibres. In the second chapter, particular attention is given to the overall experimental fabrication methods and characterization analyses conducted in the work. Chapters three to five present the main findings of this work, in which readers will discover how novel hybrid hydrogel fibres with an inner core of chitosan and alginate were prepared and characterized, how graphene was incorporated into coaxial wet-spun biofibres, and how one-dimensional triaxial fibres were developed using a novel coaxial wet-spinning fibre production method and applied as potential battery devices. In the final chapter of this work, the author summarizes the main achievements of the work and outlines some recommendations for future research.

ISBN: 9783319953786$q(electronic bk.)

Standard No.: 10.1007/978-3-319-95378-6doiSubjects--Topical Terms:

197475
Conducting polymers.

LC Class. No.: QD382.C66 / M573 2018

Dewey Class. No.: 547.70457

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520 $a This book describes the development of three dimensional electroactive fibres using a novel coaxial wet-spinning approach from organic conductors in combination with non-conducting hydrogel polymers. This book also presents the characterization and evaluation of multiaxial biofibres in terms of mechanical, physical, electrochemical and biological properties, and explores their use in a diverse range of applications including implantable electrodes, drug delivery systems and energy-storage systems. In the first chapter, the author highlights the significance of engineering three dimensional fibres, introduces the involved hydrogels and organic conductors with emphasis on their biomedical application, and collects some of the previously established methods for fabrication of biofibres. In the second chapter, particular attention is given to the overall experimental fabrication methods and characterization analyses conducted in the work. Chapters three to five present the main findings of this work, in which readers will discover how novel hybrid hydrogel fibres with an inner core of chitosan and alginate were prepared and characterized, how graphene was incorporated into coaxial wet-spun biofibres, and how one-dimensional triaxial fibres were developed using a novel coaxial wet-spinning fibre production method and applied as potential battery devices. In the final chapter of this work, the author summarizes the main achievements of the work and outlines some recommendations for future research.
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