Description

Book Synopsis

Over the past few decades, carbon nanomaterials, most commonly fullerenes, carbon nanotubes, and graphene, have gained increasing interest in both science and industry, due to their advantageous properties that make them attractive for many applications in nanotechnology. Another class of the carbon nanomaterials family that has slowly been gaining (re)newed interest is diamond molecules, also called diamondoids, which consist of polycyclic carbon cages that can be superimposed on a cubic diamond lattice. Derivatives of diamondoids are used in pharmaceutics, but due to their promising properties—well-defined structures, high thermal and chemical stability, negative electron affinity, and the possibility to tune their bandgap—diamondoids could also serve as molecular building blocks in future nanodevices.

This book is the first of its kind to give an exhaustive overview of the structures, properties, and current and possible future applications of diamondoids. It contains a brief historical account of diamondoids, from the discovery of the first diamondoid member, adamantane, to the isolation of higher diamondoids about a decade ago. It summarizes the different approaches to synthesizing diamondoids. In particular, current research on the conventional organic synthesis and new approaches based on microplasmas generated in high-pressure and supercritical fluids are reviewed and the advantages and disadvantages of the different methods discussed. The book will serve as a reference for advanced undergraduate- and graduate-level students in chemistry, physics, materials science, and nanotechnology and researchers in macromolecular science, nanotechnology, chemistry, biology, and medicine, especially those with an interest in nanoparticles.



Table of Contents

Structure and Fundamental Properties of Diamondoids. Applications of Diamondoids. Isolation of Diamondoids from Natural Sources. Synthesis of Diamondoids by Conventional Organic Chemical Synthesis. Synthesis of Diamondoids by Plasmas Generated in High-Pressure Gases and Supercritical Fluids.

Diamondoids: Synthesis, Properties, and

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Order before 4pm tomorrow for delivery by Tue 23 Dec 2025.

A Hardback by Sven Stauss, Kazuo Terashima

5 in stock


    View other formats and editions of Diamondoids: Synthesis, Properties, and by Sven Stauss

    Publisher: Pan Stanford Publishing Pte Ltd
    Publication Date: 21/03/2017
    ISBN13: 9789814745185, 978-9814745185
    ISBN10: 9814745189
    Also in:
    Life sciences: general issues Environmental science, engineering and technology Industrial chemistry and chemical engineering

    Description

    Book Synopsis

    Over the past few decades, carbon nanomaterials, most commonly fullerenes, carbon nanotubes, and graphene, have gained increasing interest in both science and industry, due to their advantageous properties that make them attractive for many applications in nanotechnology. Another class of the carbon nanomaterials family that has slowly been gaining (re)newed interest is diamond molecules, also called diamondoids, which consist of polycyclic carbon cages that can be superimposed on a cubic diamond lattice. Derivatives of diamondoids are used in pharmaceutics, but due to their promising properties—well-defined structures, high thermal and chemical stability, negative electron affinity, and the possibility to tune their bandgap—diamondoids could also serve as molecular building blocks in future nanodevices.

    This book is the first of its kind to give an exhaustive overview of the structures, properties, and current and possible future applications of diamondoids. It contains a brief historical account of diamondoids, from the discovery of the first diamondoid member, adamantane, to the isolation of higher diamondoids about a decade ago. It summarizes the different approaches to synthesizing diamondoids. In particular, current research on the conventional organic synthesis and new approaches based on microplasmas generated in high-pressure and supercritical fluids are reviewed and the advantages and disadvantages of the different methods discussed. The book will serve as a reference for advanced undergraduate- and graduate-level students in chemistry, physics, materials science, and nanotechnology and researchers in macromolecular science, nanotechnology, chemistry, biology, and medicine, especially those with an interest in nanoparticles.



    Table of Contents

    Structure and Fundamental Properties of Diamondoids. Applications of Diamondoids. Isolation of Diamondoids from Natural Sources. Synthesis of Diamondoids by Conventional Organic Chemical Synthesis. Synthesis of Diamondoids by Plasmas Generated in High-Pressure Gases and Supercritical Fluids.

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