Molecular Modelling and Synthesis of Nanomaterials [electronic resource] : Applications in Carbon- and Boron-based Nanotechnology / by Ihsan Boustani.
Material type: TextSeries: Springer Series in Materials Science ; 290Publisher: Cham : Springer International Publishing : Imprint: Springer, 2020Edition: 1st ed. 2020Description: XIII, 594 p. 538 illus., 392 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783030327262Subject(s): Nanotechnology | Physics | Nanochemistry | Nanoscale science | Nanoscience | Nanostructures | Energy storage | Nanotechnology | Numerical and Computational Physics, Simulation | Nanotechnology and Microengineering | Nanochemistry | Nanoscale Science and Technology | Energy StorageAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 620.115 LOC classification: T174.7TA418.9.N35Online resources: Click here to access onlineItem type | Current library | Call number | Status | Date due | Barcode |
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Ebooks | Mysore University Main Library | Not for loan |
Foreword -- Preface -- Part I Molecular Modelling & Magic Clusters -- 1 Molecular Modelling -- 2 Magic Numbers & Clusters -- 3 Alkali Metal Clusters -- Part II The p-Block Non-Metal Clusters -- 4 The Element Boron -- 5 The Element Carbon -- Part III Modelling of Nanostructures -- 6 Two-Dimensional Sheets -- 7 One-Dimensional Nanotubes -- 8 Three-Dimensional Fullerenes -- Part IV Potential Application in Nanotechnology -- 9 Nano Battery -- 10 Nanosensors and Fullerenes -- 11 Semi-Emperical Methods -- Index.
This book presents nanomaterials as predicted by computational modelling and numerical simulation tools, and confirmed by modern experimental techniques. It begins by summarizing basic theoretical methods, then giving both a theoretical and experimental treatment of how alkali metal clusters develop into nanostructures, as influenced by the cluster's "magic number" of atoms. The book continues with a discussion of atomic clusters and nanostructures, focusing primarily on boron and carbon, exploring, in detail, the one-, two-, and three-dimensional structures of boron and carbon, and describing their myriad potential applications in nanotechnology, from nanocoating and nanosensing to nanobatteries with high borophene capacity. The broad discussion of computational modelling as well as the specific applications to boron and carbon, make this book an essential reference resource for materials scientists in this field of research.
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