Mineralogical applications of crystal field theory

Roger G. Burns

The second edition of this classic book provides an updated look at crystal field theory - one of the simplest models of chemical bonding - and its applications. Crystal field theory provides a link between the visible region spectra and thermodynamic properties of numerous rock-forming minerals and gems that contain the elements iron, titanium, vanadium, chromium, manganese, cobalt, nickel or copper. These elements are major constituents of terrestrial planets and significantly influence their geochemical and geophysical properties. A unique perspective of the second edition is that it highlights the properties of minerals that make them compounds of interest to solid-state chemists and physicists as well as to all earth and planetary scientists. This book will be useful as a textbook for advanced students as well as a valuable reference work for all research workers interested in this subject.

「Nielsen BookData」より

The second edition of this classic book provides an updated look at crystal field theory - one of the simplest models of chemical bonding - and its applications. Crystal field theory provides a link between the visible region spectra and thermodynamic properties of numerous rock-forming minerals and gems that contain the elements iron, titanium, vanadium, chromium, manganese, cobalt, nickel or copper. These elements are major constituents of terrestrial planets and significantly influence their geochemical and geophysical properties. A unique perspective of the second edition is that it highlights the properties of minerals that make them compounds of interest to solid-state chemists and physicists as well as to all earth and planetary scientists. This book will be useful as a textbook for advanced students as well as a valuable reference work for all research workers interested in this subject.

「Nielsen BookData」より

[目次]

  • 1. Introduction
  • 2. Outline of crystal field theory
  • 3. Energy level diagrams and crystal field spectra of transition metal ions
  • 4. Measurements of absorption spectra of minerals
  • 5. Crystal field spectra of transition metal ions in minerals
  • 6. Crystal chemistry of transition metal-bearing minerals
  • 7. Thermodynamic properties
  • 8. Distribution of trace transition elements in the crust
  • 9. Optical specta at elevated temperatures and pressures: applications to the mantle
  • 10. Reflectance spectra: applications to remote sensing the compositions of planetary surfaces
  • 11. Covalent bonding of the transition elements
  • 12. Literature cited
  • Appendices
  • Subject index.

「Nielsen BookData」より

[目次]

  • 1. Introduction
  • 2. Outline of crystal field theory
  • 3. Energy level diagrams and crystal field spectra of transition metal ions
  • 4. Measurements of absorption spectra of minerals
  • 5. Crystal field spectra of transition metal ions in minerals
  • 6. Crystal chemistry of transition metal-bearing minerals
  • 7. Thermodynamic properties
  • 8. Distribution of trace transition elements in the crust
  • 9. Optical specta at elevated temperatures and pressures: applications to the mantle
  • 10. Reflectance spectra: applications to remote sensing the compositions of planetary surfaces
  • 11. Covalent bonding of the transition elements
  • 12. Literature cited
  • Appendices
  • Subject index.

「Nielsen BookData」より

この本の情報

書名 Mineralogical applications of crystal field theory
著作者等 Burns, Roger G.
Hochella Michael F.
Liebermann Robert C.
Putnis Andrew
Burns Roger G.
シリーズ名 Cambridge topics in mineral physics and chemistry
出版元 Cambridge University Press
刊行年月 1993
版表示 2nd ed
ページ数 xxiii, 551 p.
大きさ 24 cm
ISBN 0521017858
0521430771
NCID BA20840438
※クリックでCiNii Booksを表示
言語 英語
出版国 イギリス
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