Pierre-Camille Lacaze

Nanotechnology and Nanomaterials for Energy


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       Series EditorPierre-Noël Favennec

      Nanotechnology and Nanomaterials for Energy

      Pierre Camille Lacaze

      Jean-Christophe Lacroix

      First published 2021 in Great Britain and the United States by ISTE Ltd and John Wiley & Sons, Inc.

      Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms and licenses issued by the CLA. Enquiries concerning reproduction outside these terms should be sent to the publishers at the undermentioned address:

      ISTE Ltd

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       www.iste.co.uk

      John Wiley & Sons, Inc.

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      USA

       www.wiley.com

      © ISTE Ltd 2021

      The rights of Pierre Camille Lacaze and Jean-Christophe Lacroix to be identified as the authors of this work have been asserted by them in accordance with the Copyright, Designs and Patents Act 1988.

      Library of Congress Control Number: 2021941647

      British Library Cataloguing-in-Publication Data

      A CIP record for this book is available from the British Library

      ISBN 978-1-78630-497-1

      Introduction

      The term “nanomaterials”, by general consensus, is used to designate both nano-objects and nanostructured materials. To qualify as a nanomaterial, the dimensions of an object or of a structural element of a macroscopic material must be less than about one hundred nanometers. In addition to this first, generic definition, a distinction is made between zero-dimensional nanoparticles (0D-NP); nanowires (NW) and nanotubes (NT), which are one-dimensional (1D-NP); nanosheets and multi-sheets, which are two-dimensional (2D-NP); and, finally, three-dimensional (3D) nanostructured materials. Further distinctions are made between these forms based on their material composition: carbonaceous, inorganic or hybrid.

      Why, then, did nanotechnology attract such levels of attention from the US government in the early 2000s? Without going into too much detail, it is important to note that the 1980s and 1990s were marked by a number of important scientific discoveries relating to extremely small elements; this went hand-in-hand with technological developments which greatly increased the capacity to observe the state and performances of materials.

      Transmission electron microscopy (TEM) was first commercialized by Siemens and Ernst Ruska2 and continued to develop over the following decades. By the 1990s,