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The Periodic Table II

Catalytic, Materials, Biological and Medical Applications

  • D. Michael P. Mingos
Book

Part of the Structure and Bonding book series (STRUCTURE, volume 182)

Table of contents

  1. Front Matter
    Pages i-xi
  2. Maximilian Fritz, Sven Schneider
    Pages 1-36
  3. Luis Gómez-Hortigüela, Joaquín Pérez-Pariente
    Pages 53-88
  4. Hong Yan, Xiao-Jie Zhao, Yu-Quan Zhu, Min Wei, David G. Evans, Xue Duan
    Pages 89-120
  5. Russell J. Needham, Peter J. Sadler
    Pages 175-201
  6. Christine J. Cardin
    Pages 203-237
  7. Back Matter
    Pages 239-242

About this book

Introduction

As 2019 has been declared the International Year of the Periodic Table, it is appropriate that Structure and Bonding marks this anniversary with two special volumes.

In 1869 Dmitri Ivanovitch Mendeleev first proposed his periodic table of the elements. He is given the major credit for proposing the conceptual framework used by chemists to systematically inter-relate the chemical properties of the elements. However, the concept of periodicity evolved in distinct stages and was the culmination of work by other chemists over several decades. For example, Newland’s Law of Octaves marked an important step in the evolution of the periodic system since it represented the first clear statement that the properties of the elements repeated after intervals of 8. Mendeleev’s predictions demonstrated in an impressive manner how the periodic table could be used to predict the occurrence and properties of new elements. Not all of his many predictions proved to be valid, but the discovery of scandium, gallium and germanium represented sufficient vindication of its utility and they cemented its enduring influence. Mendeleev’s periodic table was based on the atomic weights of the elements and it was another 50 years before Moseley established that it was the atomic number of the elements, that was the fundamental parameter and this led to the prediction of further elements. 

Some have suggested that the periodic table is one of the most fruitful ideas in modern science and that it is comparable to Darwin’s theory of evolution by natural selection, proposed at approximately the same time. There is no doubt that the periodic table occupies a central position in chemistry. In its modern form it is reproduced in most undergraduate inorganic textbooks and is present in almost every chemistry lecture room and classroom. 

This second volume provides chemists with an overview of the important role played by the Periodic Table in advancing our knowledge of solid state and bioinorganic chemistry.  It also illustrates how it has been used to fine-tune the properties of compounds which have found commercial applications in catalysis, electronics, ceramics and in medicinal chemistry.  


Keywords

Photoelectron studies Homogenous catalyst Bio-inorganic Chemistry Periodic Tables Chemical Valency Zeolites d and s block elements metal ions lantanides and actinide Solid state Chemistry

Editors and affiliations

  • D. Michael P. Mingos
    • 1
  1. 1.Inorganic Chemistry LaboratoryUniversity of OxfordOxfordUK

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-030-40010-1
  • Copyright Information Springer Nature Switzerland AG 2019
  • Publisher Name Springer, Cham
  • eBook Packages Chemistry and Materials Science
  • Print ISBN 978-3-030-40009-5
  • Online ISBN 978-3-030-40010-1
  • Series Print ISSN 0081-5993
  • Series Online ISSN 1616-8550
  • Buy this book on publisher's site
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