Description
Handbook on the Physics and Chemistry of Rare Earths: Including Actinides, Volume 52, is a continuous series of books covering all aspects of rare earth science, including chemistry, life sciences, materials science and physics. The book's main emphasis is on rare earth elements [Sc, Y, and the lanthanides (La through Lu], but whenever relevant, information is also included on the closely related actinide elements. Individual chapters are comprehensive, broad, up-to-date, critical reviews written by highly experienced, invited experts.
The series, which was started in 1978 by Professor Karl A. Gschneidner Jr., combines, and integrates, both the fundamentals and applications of these elements with two published volumes each year.
- Presents up-to-date overviews and new developments in the field of rare earths, covering both their physics and chemistry
- Contains Individual chapters that are comprehensive and broad, with critical reviews
- Provides contributions from highly experienced, invited experts
Chapter
Index of Contents of Volumes 1-52
Chapter 298: Alloy Systems and Compounds Containing Rare Earth Metals and Carbon
3. Ternary Systems Containing Rare Earth and Carbon
3.1. R-R-C Ternary Systems
3.2. Ternary R-T-C (T=3d-Element) Systems
3.2.16. La-T-C (T=Ti, V, Cr)
3.2.21. La-T-C (T=Cu, Zn) and Ce-T-C (T=Ti, V)
3.2.28. Ce-Zn-C and Pr-T-C (T=Ti, V, Cr)
3.2.33. Pr-T-C (T=Cu, Zn) and Nd-T-C (T=Ti, V, Cr)
3.2.38. Nd-T-C (T=Cu, Zn), Pm-T-C (T=Ti-Zn), and Sm-T-C (T=Ti, V)
3.2.44. Sm-T-C (T=Cu, Zn)
3.2.52. Gd-T-C (T=Cu, Zn) and Tb-T-C (T=Ti, V)
3.2.58. Tb-T-C (T=Cu, Zn) and Dy-T-C (T=Ti, V)
3.2.64. Dy-T-C (T=Cu, Zn) and Ho-T-C (T=Ti, V)
3.2.70. Ho-T-C (T=Cu, Zn) and Er-T-C (T=Ti, V)
3.2.76. Er-T-C (T=Cu, Zn) and Tm-T-C (T=Ti, V)
3.2.82. Tm-T-C (T=Cu, Zn) and Yb-T-C (T=Ti, V)
3.2.88. Yb-T-C (T=Cu, Zn) and Lu-T-C (T=Ti, V)
3.2.94. Lu-T-C (T=Cu, Zn)
3.3. R-T-C Ternary Systems (T=4d-Element)
3.3.5. Sc-T-C (T=Ru, Rh, Pd)
3.3.10. R-Ru-C (R=La, Pr, Nd, Sm, Eu)
3.3.11. R-Rh-C (R=La, Pr, Nd, Sm, Eu)
3.3.14. Ce-T-C (T=Ru, Rh, Pd)
3.3.19. R-Ru-C (R=Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu)
3.3.20. R-Rh-C (R=Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu)
3.3.21. R-Mo-C (R=Tb, Dy)
3.3.22. R-Mo-C (R=Ho, Er, Tm)
3.4. R-M-C (T=5d-Element) Ternary Systems)
4. Multicomponent Systems Containing Rare Earth and Carbon
5. Physical Properties of Alloys and Compounds Containing Rare Earth and Carbon
5.2.1. Binary Rare Earth Carbide Superconductors
5.2.1.1. Superconducting Properties of Rare Earth Dicarbides
5.2.1.2. Superconducting Properties of Rare Earth Sesquicarbides
5.2.1.3. Superconductivity of Intercalated Graphite, YbC6
5.2.2. Ternary Rare Earth Carbometalate Superconductors
5.2.2.1. Superconducting Features and CDW Instabilities of Quasi-One-Dimensional Sc3CoC4
5.2.2.2. Superconductivity of Noncentrosymmetric LaNiC2
5.3.1. Magnetic Interactions of the Rare Earth Ions
5.3.2. Magnetism of Binary Rare Earth Dicarbides
5.3.3. Magnetism and CDW Ordering in Selected Rare Earth Carbometalates
5.3.3.1. Magnetism of RCoC2
5.3.3.2. Magnetism and CDW Features of RNiC2
6. Generalization of the Data on Alloy Systems and Compounds Containing Rare Earth and Carbon
6.1. Methods of Synthesis of Rare Earth-Containing Carbides
6.2. Regularities Found in Binary R-C Phase Diagrams
6.3. Regularities Found in Crystal Chemistry of Binary Rare Earth Carbides
6.4. Regularities Found in Ternary Systems Containing Rare Earth and Carbon
6.5. Regularities Found in Crystal Chemistry of Ternary Rare Earth Carbides
Handbook on the Physics and Chemistry of Rare Earths
:Including Actinides
( Volume 52 )
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