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John Wiley & Sons Synthesis, Properties and Mineralogy of Important Inorganic Materials Cover Intended to serve as lecture material for courses involving preparative solid-state chemistry, Synth.. Product #: 978-0-470-74612-7 Regular price: $139.25 $139.25 Auf Lager

Synthesis, Properties and Mineralogy of Important Inorganic Materials

Warner, Terence E.

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1. Auflage Januar 2011
288 Seiten, Hardcover
Wiley & Sons Ltd

Kurzbeschreibung

Intended to serve as lecture material for courses involving preparative solid-state chemistry, Synthesis of Inorganic Materials offers clear and detailed descriptions on how to prepare materials and alloys that exhibit important optical, magnetic, and electrical properties on a laboratory scale. This reference provides practical experience covering a wide range of preparative methods and can be read as separate, independent chapters or as a unified coherent body of work. Questions at the end of each chapter encourage the reader to search the literature, and an accompanying solutions manual and website are available.

ISBN: 978-0-470-74612-7
John Wiley & Sons

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Intended to serve as a textbook for courses involving preparative solid-state chemistry, this title offers clear and detailed descriptions on how to prepare inorganic materials that exhibit important optical, magnetic and electrical properties on a laboratory scale. This book provides practical experience covering a wide range of preparative methods and can be read as separate, independent chapters or as a unified coherent body of work. Questions at the end of each chapter encourage the reader to search the literature, and an accompanying solutions manual and website are available. This book will also be of great benefit to postgraduate and post-doctoral workers requiring knowledge of solid-state synthesis.

Inside Front Cover: Periodic Table of the Elements.

Inside Back Cover: Divisions of Geological Time.

Foreword (Derek J. Fray).

Preface.

Acknowledgements.

1 Introduction.

2 Practical Equipment.

2.1 Containers.

2.2 Milling.

2.3 Fabrication of Ceramic Monoliths.

2.4 Furnaces.

2.5 Powder X-ray Diffractometry.

3 Artificial Cuprorivaite CaCuSi4O10 (Egyptian Blue) by a Salt-Flux Method.

4 Artificial Covellite CuS by a Solid-Vapour Reaction.

5 Turbostratic Boron Nitride t-BN by a Solid-Gas Reaction Using Ammonia as the Nitriding Reagent.

6 Rubidium Copper Iodide Chloride Rb4Cu16I7Cl13 by a Solid-State Reaction.

7 Copper Titanium Zirconium Phosphate CuTiZr(PO4)3 by a Solid-State Reaction Using Ammonium Dihydrogenphosphate as the Phosphating Reagent.

8 Cobalt Ferrite CoFe2O4 by a Coprecipitation Method.

9 Lead Zirconate Titanate PbZr0.52Ti0.48O3 by a Coprecipitation Method Followed by Calcination.

10 Yttrium Barium Cuprate YBa2Cu3O7-´ (´ ~ 0) by a Solid-State Reaction Followed by Oxygen Intercalation.

11 Single Crystals of Ordered Zinc-Tin Phosphide ZnSnP2 by a Solution-Growth Technique Using Molten Tin as the Solvent.

12 Artificial Kieftite CoSb3 by an Antimony Self-Flux Method.

13 Artificial Violarite FeNi2S4 by a Hydrothermal Method Using DL-Penicillamine as the Sulfiding Reagent.

14 Artificial Willemite Zn1.96Mn0.04SiO4 by a Hybrid Coprecipitation and Sol-Gel Method.

15 Artificial Scheelite CaWO4 by a Microwave-Assisted Solid-State Metathetic Reaction.

16 Artificial Hackmanite Na8[Al6Si6O24]Cl1.8S0.1 by a Structure-Conversion Method with Annealing Under a Reducing Atmosphere.

17 Gold-Ruby Glass from a Potassium-Antimony-Borosilicate Melt with a Controlled Annealing.

Index.