5 edition of Polymeric Nanofibers (Acs Symposium Series) found in the catalog.
January 27, 2006 by An American Chemical Society Publication .
Written in English
|Contributions||Darrell H. Reneker (Editor), Hao Fong (Editor)|
|The Physical Object|
|Number of Pages||464|
Edited Book: Thermoreversible Gels and Related Systems, ACS Symposium and George R. Newkome, in “Polymeric Nanofibers”, Darrell Reneker and Hao Fong, eds. American Chemical Society, ACS Symposium Series #, Oxford University Press: New York, ; Ch. "Macromolecular Assemblies in Polymeric Systems", ACS Symposium Series # 'An in-depth explanation of the basic properties of polymers helps the reader to refresh knowledge acquired during university courses, and is a very good introduction to further content, especially various methods of fiber formation, with understandable and clear schematics which are essential to fully understand nanofiber formation and their advantages and limits Cited by: The electrospinning process was used to manufacture nanofiber mats of polymeric materials that have low thickness and improved sound absorption characteristics. The processed nanofiber composites consisted of a number of formulated combinations of polymeric materials, i.e., Polyvinyl Alcohol (PVA), Polystyrene (PS), and Polyvinyl Chloride (PVC).Author: Mohamed Ali Elkasaby, Utkarsh, Nabeel Ahmed Syed, Ghaus Rizvi, Atef Mohany, Remon Pop-Iliev.
On the determination of the optimum relaxation factor for the Sor method when the eigenvalues of the Jacobi method are complex
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Electrospun Nanofibers offers systematic and comprehensive coverage for academic researchers, industry professionals, and postgraduate students working in the field of fiber science.
Electrospinning is the most commercially successful process for the production of nanofibers and rising demand is driving research and development in this field. The polymeric nanofibers can be obtained from the molten polymer in bulk or polymer solution. The method consists of obtaining individual nanofibers (at a rate of μm/s), in which a micropipette is submerged in the chosen polymer solution.
Drawing is followed by evaporation of the solvent and formation of the by: 4. Polymeric Nanofibers | Darrell H. Reneker and Hao Fong (Eds.) | download | Polymeric Nanofibers book.
Download books for free. Find books. Polymeric nanofibers: introduction / Darrell H. Reneker and Hao Fong Nanofiber manufacturing: toward better process control / Darrell H.
Reneker, Alexander Yarin, Eyal Zussman, Sureeporn Koombhongse and Woraphon Kataphinan -- 3. Multiscale Fibrous Scaffolds in Regenerative Medicine, by Sowmya Srinivasan, R.
Jayakumar, K. Chennazhi, Erica J. Levorson, Antonios G. Mikos and Shantikumar V. Nair; Stem Cells and Nanostructures for Advanced Tissue Regeneration, by Molamma P.
Prabhakaran, J. Venugopal, Laleh Ghasemi-Mobarakeh, Dan Kai Guorui Jin and Seeram Ramakrishna. Pair your accounts. Export articles to Mendeley.
Get article recommendations from ACS based on references in your Mendeley library. Biomedical Applications of Polymeric Nanofibers. Advances in Polymer Science (Book ) Share your thoughts Complete your review. Tell readers what you thought by rating and reviewing this book.
Rate it * You Rated it *Brand: Springer Berlin Heidelberg. Biomedical Applications of Polymeric Nanofibers (Advances in Polymer Science ()) [Jayakumar, Rangasamy, Nair, Shantikumar] on *FREE* shipping on qualifying offers. Biomedical Applications of Polymeric Nanofibers (Advances in Polymer Science ())Format: Hardcover.
Polymeric Nanofibers will showcase recent developments in the production, characterization, and emerging use of nanofibers made from different polymers for a variety of purposes. Although it has been difficult to produce polymer fibers in the laboratory, electrospinning now makes it easier.
Electrospinning, an electrohydrodynamical process for 5/5(1). This book covers the general aspects of electrospinning and discusses the fundamental concepts that can be used to produce nanofibers with the help of mathematical models and equations.
It also details the methods through which different polymeric structures can be included in conjugated polymers Polymeric Nanofibers book electrospinning to form composites or. Discover new and emerging applications of polymer nanofibers alongside the basic underlying science and technology.
With discussions exploring such practical applications as filters, fabrics, sensors, catalysts, scaffolding, drug delivery, and wound dressings, the book provides polymer scientists and engineers with a comprehensive, practical "how-to" reference.
Tissue engineering is an interdisciplinary area in which polymeric nanofibers have been exploited either as scaffolds or wound dressings. Polymeric Nanofibers book This chapter overviews the use of versatile electro-hydrodynamic processing techniques for developing antimicrobial nanofibrous mats derived from polymeric biocomposites.
The influence of well-known antimicrobial nanoparticles on the physical properties of Cited by: 2. Biomedical Applications of Polymeric Nanofibers. Editors: Jayakumar, Rangasamy, Nair, Shantikumar Biomedical Applications of Polymeric Nanofibers Editors.
Rangasamy Jayakumar; *immediately available upon purchase as print book shipments may be delayed due to the COVID crisis. ebook access is temporary and does not include ownership. ISBN: OCLC Number: Language Note: English. Notes: Title from PDF title page (ACS publications, viewed. Free Online Library: Polymeric Nanofibers.(Brief Article, Book Review) by "SciTech Book News"; Publishing industry Library and information science Science and technology, general Books Book.
This book covers the general aspects of electrospinning and discusses the fundamental concepts that can be used to produce nanofibers with the help of mathematical models and equations. It also details the methods through which different polymeric structures can be included in conjugated polymers during electrospinning to form composites or Cited by: 3.
Significant progress has been made recently in the fabrication of polymeric nanofibers, their characterization and applications, new polymeric materials, theoretical analysis, and so forth.
In book: Nanomedicine for Drug Delivery and Therapeutics, pp Polymeric nanofibers can be produced by using various techniques, but electrospinning is the only technique available for.
Biomedical Applications of Polymeric Nanofibers. por. Advances in Polymer Science (Book ) ¡Gracias por compartir. Has enviado la siguiente calificación y reseña. Lo publicaremos en nuestro sitio después de haberla : Springer Berlin Heidelberg. As a result of their peculiar features like extremely high surface area to weight ratio, low density, as well as high pore volume and controllable pore size, which may not be present in other structures, nanofibers have taken centre stage in nanotechnology.
The indicated properties, consequently, make non-woven nanofibers as appropriate materials for wide-spread applications. Electrospinning Author: Nabeel Zabar Abed Al-Hazeem.
History of nanofiber production. Nanofibers were first produced via electrospinning more than four centuries ago. Beginning with the development of the electrospinning method, English physicist William Gilbert () first documented the electrostatic attraction between liquids by preparing an experiment in which he observed a spherical water drop on a dry surface warp into a cone shape.
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FREE Shipping on $35 or more. Due Author: Rangasamy Jayakumar. Shareable Link. Use the link below to share a full-text version of this article with your friends and colleagues. Learn more.
An electrospun mat of proton-conducting polymeric nanofibers is created and then intersecting fibers are welded to produce a three-dimensional nanofiber network. An inert/impermeable (uncharged) polymer is impregnated into the void space between the fibers to provide mechanical strength, gas barrier properties, and controlled water by: 2.
This mini-review summarizes various approaches that have been employed to obtain functional electrospun polymeric nanofibers. Examples from recent literature are used to highlight the design of reactive and ‘clickable’ nanofibers that can be rendered with functional attributes through efficient conjugation of various molecules and macromolecules.
The book series Nanomaterials for the Life Sciences, provides an in-depth overview of all nanomaterial types and their uses in the life sciences. Each volume is dedicated to a specific material class and covers fundamentals, synthesis and characterization strategies, structure-property relationships and biomedical applications.
The series brings nanomaterials to the Life Scientists and life. Surfactant-assisted fabrication of porous polymeric nanofibers with surface-enriched iron oxide nanoparticles: composite filtration materials for removal of metal cations† Katherine T.
Peter, a Nosang V. Myung b and David M. Cwiertny * a. This Special Issue will address new developments in the area of “Polymeric Electrospun Nanofibers for Drug Delivery or Tissue Engineering Applications”, covering recent advantages and future directions on electrospun fiber formulations.
We have combined the sol-gel synthesis and electrospinning to develop inorganic nanofibers. We have been able to incorporate various metal oxide crystal phases such as TiO 2, ZrO 2, Fe 3 O 4 and V 2 O 5.
in silica or carbon rmore, a purely water based approach has been used to electrospin nanofibers comprised of polyvinyl alcohol and metal precursors with a precursor to.
The concrete relationship between the process parameters and nanoproduct properties is an important challenge for applying nanotechnology to produce functional nanomaterials. In this study, the relationships between series of process parameters and the medicated nanofibers’ diameter were investigated.
With an electrospinnable solution of hydroxypropyl methylcellulose (HPMC) and Cited by: In this study, a novel artificial renal replacement system is presented using a biocompatible polymeric nanofibers and MEMS technology. Usually, a classical artificial renal replacement system employs a semi-permeable membrane based hemodialyzer that replaces an ability of the kidney by removing metabolic toxins through diffusion and hydraulic pressure : Kwang Ho Lee, Jae Gwan Kim, Duck Joong Kim, Sang Hoon Lee, Byoung Goo Min.
The series covers biomaterials, nanomaterials, polymeric nanofibers and electrospun materials, polymer hybrids, conducting polymers, composite materials from macro- to nano-scale, and many more; from fundamentals, over the synthesis and development of the new materials, to their applications. Cai J., Chawla S., and Naraghi M., “Microstructural Evolution and Mechanics of Hot-drawn CNT-Reinforced Polymeric Nanofibers”, Carbon,().
To unravel reinforcing effect of CNTs in polymeric nanofibers, polyacrylonitrile (PAN)/SWNTs nanofibers with various CNTs content (– wt%) were electrospun. Naraghi, M & Chasiotis, IViscoelastic and viscoplastic mechanical behavior of polymeric nanofibers: An experimental and theoretical approach.
in Time Dependent Constitutive Behavior and Fracture/Failure Processes - Proceedings of the Annual Author: M. Naraghi, I. Chasiotis. T1 - Mechanics of PAN nanofibers. AU - Naraghi, Mohammad. AU - Chasiotis, Ioannis. PY - /12/1. Y1 - /12/1. N2 - Novel and scalable fabrication methods, such as electrospinning and pulsed laser deposition, provide low-cost polymeric nanofibers for structural by: 4.
Polyvinyl alcohol (PVA) nanofibers encapsulating eugenol (EG)/cyclodextrin (CD) inclusion complexes (IC) (EG/CD-IC) were produced via electrospinning technique in order to achieve high thermal stability and slow release of EG.
In order to find out the most favorable CD type for the stabilization of EG, three types of native cyclodextrins (α-CD, β-CD, and γ-CD) were used for the formation of Cited by: • Generally, polymeric nanofibers are produced by an electro-spinning process. • Electro-spinning is a process that spins fibers of diameters ranging from 10nm to several nm.
• This method has been known since when the first patent on electro- spinning was filed. The resulting nanofibers were characterized for morphology, drug loading, in-vitro release and degree of swelling. Different kinetic models were applied to the in-vitro release profile of different polymeric nanofibers.
The prepared nanofibers were found to be uniform, non-beaded and non-woven with fiber diameter ranging from by: The polymeric nanofibers were achieved by electrospinning method using PCL, PVA and a blend of sodium alginate & PVA as polymeric constituents.
Different methods such as passive & active (solvent and non-solvent evaporation methods) techniques were used to prepare drug loaded by: In the second edition of Physical Properties of Polymers Handbook, each chapter has been extensively updated and revised.
The number of chapters have increased from 52 to 63 to include novel polymeric structures, specifically rotaxanes and related materials, self-assembly materials, foldamer supramolecular structures, tribology, mechanical. Encyclopedia of Biomedical Polymers and Polymeric Biomaterials, 11 Volume Set Encyclopedia of Biomedical Polymers and Polymeric Biomaterials, 11 Volume Set book.
Encyclopedia of Biomedical Polymers and Polymeric Biomaterials, 11 Volume Set The potential applications of electrospun PCL nanofibers are discussed for drug delivery in areas Author: Nour Alhusein, Paul A.
De Bank, Ian S. Blagbrough. Artificial Protein and Peptide Nanofibers: Design, Fabrication, Characterization, and Applications provides comprehensive knowledge of the preparation, modification and applications of protein and peptide nanofibers.
The book reviews the synthesis and strategies necessary to create protein and peptide nanofibers, such as self-assembly (including supramolecular assembly), Book Edition: 1.Recent advances of basic materials to obtain electrospun polymeric nanofibers for medical applications.
L R Manea 1,2, L Hristian 1, A L Leon 1 and A Popa 3. Published under licence by IOP Publishing Ltd IOP Conference Series: Materials Science and Engineering, VolumeAdvances in Composite Materials and TechnologiesCited by: