大葉大學圖書館 |

Nanobiomaterials handbook[electronic resource] /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
杜威分類號:	610.28
書名/作者:	Nanobiomaterials handbook/ edited by Balaji Sitharaman.
其他作者:	Sitharaman, Balaji.
出版者:	Boca Raton, FL : : CRC Press,, c2011.
面頁冊數:	1 online resource : : ill. (some col.)
標題:	Nanotechnology.
標題:	Nanostructured materials.
標題:	Biomedical engineering.
標題:	Nanostructures.
標題:	Biocompatible Materials.
ISBN:	9781420094671 (electronic bk.)
書目註:	Includes bibliographical references and index.
摘要、提要註:	"The Nanobiomaterials Handbook aims to provide a comprehensive overview of the field of nanobiomaterials with a broad introduction for those who are unfamiliar with the subject and as a useful reference for advanced professionals. Nanobiomaterials are poised to play a central role in nanobiotechnology and make significant contributions to biomedical research and health care. This assessment is based on numerous demonstrations that nanobiomaterials can exhibit distinctive nanoscopic characteristics (e.g., mechanical, electrical, and optical properties) suitable for a variety of biological applications. Advances in nanobiomaterials require a multidisciplinary approach spanning fields in physical sciences (e.g., chemistry), biological sciences (e.g., molecular biology), engineering (e.g., chemical engineering), and medicine with considerable interaction and collaboration among ethicists, regulatory bodies, and industry. The introduction defines the field of nanobiomaterials and discusses its scope, current status, and future prospects. This is followed by an in-depth survey of nanobiomaterials. It also provides a comprehensive overview of the various synthesis and processing techniques important for developing bionanomaterials and explores the unique nanoscopic physicochemical properties of nanobiomaterials. Next, a detailed survey of potential applications of nanobiomaterials is presented. Here the emphasis is on the unique challenges in the design, fabrication, and evaluation of biomaterials for a particular application/field. For instance, key physical properties necessary for developing bionanomaterials for molecular imaging applications are completely different than those for gene therapy"--
電子資源:	http://www.crcnetbase.com/isbn/9781420094671

Nanobiomaterials handbook[electronic resource] /
Nanobiomaterials handbook[electronic resource] /edited by Balaji Sitharaman. - Boca Raton, FL :CRC Press,c2011. - 1 online resource :ill. (some col.)

Includes bibliographical references and index.

"The Nanobiomaterials Handbook aims to provide a comprehensive overview of the field of nanobiomaterials with a broad introduction for those who are unfamiliar with the subject and as a useful reference for advanced professionals. Nanobiomaterials are poised to play a central role in nanobiotechnology and make significant contributions to biomedical research and health care. This assessment is based on numerous demonstrations that nanobiomaterials can exhibit distinctive nanoscopic characteristics (e.g., mechanical, electrical, and optical properties) suitable for a variety of biological applications. Advances in nanobiomaterials require a multidisciplinary approach spanning fields in physical sciences (e.g., chemistry), biological sciences (e.g., molecular biology), engineering (e.g., chemical engineering), and medicine with considerable interaction and collaboration among ethicists, regulatory bodies, and industry. The introduction defines the field of nanobiomaterials and discusses its scope, current status, and future prospects. This is followed by an in-depth survey of nanobiomaterials. It also provides a comprehensive overview of the various synthesis and processing techniques important for developing bionanomaterials and explores the unique nanoscopic physicochemical properties of nanobiomaterials. Next, a detailed survey of potential applications of nanobiomaterials is presented. Here the emphasis is on the unique challenges in the design, fabrication, and evaluation of biomaterials for a particular application/field. For instance, key physical properties necessary for developing bionanomaterials for molecular imaging applications are completely different than those for gene therapy"--

ISBN: 9781420094671 (electronic bk.)

LCCN: 2011023348Subjects--Topical Terms:

192698
Nanotechnology.

LC Class. No.: R857.N34 / N3257 2011

Dewey Class. No.: 610.28

National Library of Medicine Call No.: QT 36.5

Nanobiomaterials handbook[electronic resource] /
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300 $a 1 online resource : $b ill. (some col.)
504 $a Includes bibliographical references and index.
520 $a "The Nanobiomaterials Handbook aims to provide a comprehensive overview of the field of nanobiomaterials with a broad introduction for those who are unfamiliar with the subject and as a useful reference for advanced professionals. Nanobiomaterials are poised to play a central role in nanobiotechnology and make significant contributions to biomedical research and health care. This assessment is based on numerous demonstrations that nanobiomaterials can exhibit distinctive nanoscopic characteristics (e.g., mechanical, electrical, and optical properties) suitable for a variety of biological applications. Advances in nanobiomaterials require a multidisciplinary approach spanning fields in physical sciences (e.g., chemistry), biological sciences (e.g., molecular biology), engineering (e.g., chemical engineering), and medicine with considerable interaction and collaboration among ethicists, regulatory bodies, and industry. The introduction defines the field of nanobiomaterials and discusses its scope, current status, and future prospects. This is followed by an in-depth survey of nanobiomaterials. It also provides a comprehensive overview of the various synthesis and processing techniques important for developing bionanomaterials and explores the unique nanoscopic physicochemical properties of nanobiomaterials. Next, a detailed survey of potential applications of nanobiomaterials is presented. Here the emphasis is on the unique challenges in the design, fabrication, and evaluation of biomaterials for a particular application/field. For instance, key physical properties necessary for developing bionanomaterials for molecular imaging applications are completely different than those for gene therapy"-- $c Provided by publisher.
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