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Modeling of nanotoxicity = molecular interactions of nanomaterials with bionanomachines /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Modeling of nanotoxicity/ by Ruhong Zhou.
Reminder of title:	molecular interactions of nanomaterials with bionanomachines /
Author:	Zhou, Ruhong.
Published:	Cham :Imprint: Springer, : 2015.,
Description:	xiii, 189 p. :ill. (some col.), digital ; : 24 cm.;
Contained By:	Springer eBooks
Subject:	Computer Appl. in Life Sciences. -
Online resource:	http://dx.doi.org/10.1007/978-3-319-15382-7
ISBN:	9783319153827

Modeling of nanotoxicity = molecular interactions of nanomaterials with bionanomachines /
Zhou, Ruhong.

Modeling of nanotoxicitymolecular interactions of nanomaterials with bionanomachines /[electronic resource] :by Ruhong Zhou. - Cham :Imprint: Springer,2015. - xiii, 189 p. :ill. (some col.), digital ;24 cm.

Introduction -- Fullerene and Derivatives -- Carbon Nanotubes -- Graphene and Derivatives -- Graphyne and Derivatives -- Noble Metal Nanomaterials -- Metal Oxides and Related Nanostructures -- Quantum Dots and their Ligand Passivation -- Nanomedicine: Implications from Nanotoxicity.

This book provides a comprehensive overview of the fundamentals of nanotoxicity modeling and its implications for the development of novel nanomedicines. It lays out the fundamentals of nanotoxicity modeling for an array of nanomaterial systems, ranging from carbon-based nanoparticles to noble metals, metal oxides, and quantum dots. The author illustrates how molecular (classical mechanics) and atomic (quantum mechanics) modeling approaches can be applied to bolster our understanding of many important aspects of this critical nanotoxicity issue. Each chapter is organized by types of nanomaterials for practicality, making this an ideal book for senior undergraduate students, graduate students, and researchers in nanotechnology, chemistry, physics, molecular biology, and computer science. It is also of interest to academic and industry professionals who work on nanodrug delivery and related biomedical applications, and aids readers in their biocompatibility assessment efforts in the coming age of nanotechnology. This book also provides a critical assessment of advanced molecular modeling and other computational techniques to nanosafety, and highlights current and future biomedical applications of nanoparticles in relation to nanosafety.

ISBN: 9783319153827

Standard No.: 10.1007/978-3-319-15382-7doiSubjects--Topical Terms:

593908
Computer Appl. in Life Sciences.

LC Class. No.: RA1270.N36

Dewey Class. No.: 620.115

Modeling of nanotoxicity = molecular interactions of nanomaterials with bionanomachines /
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505 0 $a Introduction -- Fullerene and Derivatives -- Carbon Nanotubes -- Graphene and Derivatives -- Graphyne and Derivatives -- Noble Metal Nanomaterials -- Metal Oxides and Related Nanostructures -- Quantum Dots and their Ligand Passivation -- Nanomedicine: Implications from Nanotoxicity.
520 $a This book provides a comprehensive overview of the fundamentals of nanotoxicity modeling and its implications for the development of novel nanomedicines. It lays out the fundamentals of nanotoxicity modeling for an array of nanomaterial systems, ranging from carbon-based nanoparticles to noble metals, metal oxides, and quantum dots. The author illustrates how molecular (classical mechanics) and atomic (quantum mechanics) modeling approaches can be applied to bolster our understanding of many important aspects of this critical nanotoxicity issue. Each chapter is organized by types of nanomaterials for practicality, making this an ideal book for senior undergraduate students, graduate students, and researchers in nanotechnology, chemistry, physics, molecular biology, and computer science. It is also of interest to academic and industry professionals who work on nanodrug delivery and related biomedical applications, and aids readers in their biocompatibility assessment efforts in the coming age of nanotechnology. This book also provides a critical assessment of advanced molecular modeling and other computational techniques to nanosafety, and highlights current and future biomedical applications of nanoparticles in relation to nanosafety.
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