3 edition of Radiation Synthesis and Modification of Polymers for Biomedical Applications (IAEA-Tecdoc Series) found in the catalog.
Radiation Synthesis and Modification of Polymers for Biomedical Applications (IAEA-Tecdoc Series)
by International Atomic Energy Agency
Written in English
|The Physical Object|
Polymers have been emerging to be the cornerstones for therapeutic applications as well as the largest and versatile class of biomaterials. Synthetic polymers can be designed and synthesized with a broad variety of structures and appropriate physical and chemical properties, which are of increasing interest in a wide range of biomedical applications as diverse as tissue engineering, drug. Tissue engineering approaches that combine biomaterial-based scaffolds with protein delivery systems have provided a potential strategy for improved regene.
The Encyclopedia of Biomedical Polymers & Polymeric Biomaterials presents state-of-the-art research and development on the application of novel polymers in a vital area. This groundbreaking work includes the insight of a large number of contributors from around the world who offer a broad-based perspective on a multitude of topics. Study of Radiation- and Thermal-Oxidized Regions in Ethylene—Propylene Rubber Using an X-ray Microanalyzer Y. Morita, T. Yagi, and W. Kawakami Chap pp
This chapter is focused on the synthesis of smart polymers and coatings obtained by the use of gamma radiation. In addition, the diverse applications of these materials in the biomedical area are also reported, with focus in drug delivery, sutures, and biosensors. Subsequently, the properties and the performance of polymer/MOF nanocomposites used in these applications are examined, in relation to the approach applied for their synthesis: (i) non-covalent attachment, (ii) covalent attachment, (iii) polymer coordination to metal ions, (iv) MOF encapsulation in polymers, and (v) other strategies.
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F.D. Muñoz-Muñoz, E. BucioSurface Modification and Functionalization of Polymer Materials by Gamma Irradiation for Biomedical Applications, Radiation Synthesis of Materials & Compounds Taylor & Francis CRC Press, Boca Raton (), pp. Author: Victor H. Pino-Ramos, H. Iván Meléndez-Ortiz, Alejandro Ramos-Ballesteros, Emilio Bucio.
Book Description. Researchers and engineers working in nuclear laboratories, nuclear electric plants, and elsewhere in the radiochemical industries need a comprehensive handbook describing all possible radiation-chemistry interactions between irradiation and materials, the preparation of materials under distinct radiation types, the possibility of damage of materials under irradiation, and more.
preparation of polymers for biomedical applications was the subject of the CRP on Radiation Synthesis and Modification of Polymers for Biomedical Applications implemented from to (IAEA-TECDOC).
The Technical Meeting on Emerging Applications of Radiation Processing for the 21st Century organized in Vienna in April reviewed. Radiation Synthesis of Materials and Compounds presents the state of the art of the synthesis of materials, composites, and chemical compounds, and describes methods based on the use of ionizing radiation.
It is devoted to the preparation of various types of materials (including nanomaterials) and chemical compounds using ionizing radiation. This book discusses the effects of radiation in polymers and their structure as well as its impact on the polymers' properties.
It introduces the synthesis, characterization, or modification of many important materials, e.g. polycarbonates, polyamides and polysaccharides, using radiation. A guide to modifying and functionalizing the surfaces of polymers Surface Modification of Polymers is an essential guide to the myriad methods that can be employed to modify and functionalize the surfaces of polymers.
The functionalization of polymer surfaces is often required for applications in sensors, membranes, medicinal devices, and others. CONTENTS • Introduction • Classification • Selection parameters for biomedical polymers • Applications • Conclusion 2Sci Res.
J Biomaterials and Nanobiotechnology2, pp Report On Radiation Synthesis And Modification Of Polymers For Biomedical Applications,International Atomic Energy Agency, pp S.
Plasma and Radiation-Induced Graft Modification of Polymers for Biomedical Applications. effects on the structural mechanical properties of polymers, and (4) the radiation effects on living cells and tissues which are of particular importance for radiation protection and radiotherapy.
Macromolecules Makromoleküle Polymere Polymers. Laser surface modification of biomaterials enables the production of hybrid materials with different functionality in the bulk as well as the thin, sub-micrometer surface layer. This book will provide readers with a comprehensive review of the technology and its applications.
Polymers have generated considerable interest in a number of innovative domains for biomedical applications. There is a great need to develop and design polymers for better acceptability to the.
Radiation synthesis of stimuli-responsive polymers and adsorbents is a wide field of important applications of radiation technology . Radiation graft polymerization has been widely used for over 50 years throughout polymer chemistry.
Typically, it involves the creation of reactive sites (radicals) on the polymer surface fol. The presented review summarizes the microbial aspects of BC production (bacterial strains, carbon sources and media) and versatile in situ and ex situ methods applied in BC modification, especially towards bionic design for applications in regenerative medicine, from wound healing and artificial skin, blood vessels, coverings in nerve surgery.
CARMEN SCHOLZ, PhD, is a Professor in the Department of Chemistry at the University of Alabama in Huntsville, where her research concentrates on the synthesis and characterization of biocompatible and biodegradable polymers.
She serves on the editorial boards of 3 journals (including Wiley's Polymer International), has published over 70 papers or proceedings, and edited 5 books. Ionizing Radiation Effects in Polymers. synthesis and biomedical applications. Article. The modification of polymers using high-energy irradiation can be performed by the following.
Chapter 1 Polymers for Biomedical Applications Ankur S. Kulshrestha1 and Anil Mahapatro2 1BD Medical-Medical Surgical Systems, BD, 1 Becton Drive, MCFranklin Lakes, NJ 2Center for Biotechnology and Biomedical Sciences, Department of Chemistry, Norfolk.
Gamma radiation has been shown particularly useful for the functionalization of surfaces with stimuli-responsive polymers. This method involves the formation of active sites (free radicals) onto the polymeric backbone as a result of the high-energy radiation exposition over the polymeric material.
Thus, a microenvironment suitable for the reaction among monomer and/or polymer and the active. Superparamagnetic iron oxide nanoparticles (MNPs) with appropriate surface chemistry exhibit many interesting properties that can be exploited in a variety of biomedical applications such as magnetic resonance imaging contrast enhancement, tissue repair, hyperthermia, drug delivery and in cell separation.
These applications required that the MNPs such as iron oxide Fe3O4 magnetic. Condensing the relevant research into a comprehensive reference, Polymer and Polymer-Hybrid Nanoparticles: From Synthesis to Biomedical Applications covers an array of topics from synthetic procedures and macromolecular design to possible biomedical applications of nanoparticles and materials based on original and unique polymers.
The book Format: Hardcover. The book also contains applications of radiation chemistry of polymers, such as: principles of selection of radiation-chemical processes for industrial use; choice of radiation sources for specific processes; modification of textile and film materials by grafting; manufacturing of heat-shrinkable, thermostable and mechanically strong polymer Format: Hardcover.
Radiation synthesis of polymer nanogels for biomedical applications Piotr Ulański, Sławomir Kadłubowski, Janusz M. Rosiak Institute of Applied Radiation Chemistry, Lodz University of Technology, Poland.
2 Radiation cross-linking of polymers Improved: Mechanical properties Chemical resistance. Additionally, this CRP will facilitate net working between radiation technologists and biomedical scientists for the development of such applications Objectives The overall objective of this project was to support MS on the use of radiation in the synthesis, modification, and characterization of advanced materials by nanoscale control of their.Radiation synthesis and characterization of nanomaterials for advanced technology, environment and healthcare products applications.
REGIONAL AFRICA: Strengthening National Radiation Processing Capabilities in the use of natural polymeric materials for agricultural applications, environmental remediation, and health care products development.