The interface structure of joined materials is a key factor in the development of high-tech components. The book reviews recent experimental and theoretical research in the area of modelling new types of joints and predicting the expected properties. Fields covered include lattice theory, semiconductor electronics, solid-state lithium-ion conductor, solid-state devices, filamentary growth of graphite, curved basal sheets of graphite, thermodynamic factors and lattice-matching criteria, minimisation of interface stresses due to misfit, epitaxial deposition, composite design, coincidence site lattice theory, ionic conductivity improvement by interfacial lattice strain, epitaxial thin-film systems, methods and software for identifying compatible material combinations. The book references 302 original resources and includes their direct web link for in-depth reading.
The book reviews recent experimental and theoretical research in the area of modelling new types of joints and predicting the expected properties.
The book reviews recent experimental and theoretical research in the area of modelling new types of joints and predicting the expected properties.
Table of Contents
- Heterostructural Interface Modelling
- Coincidence-Site Lattice Theory
- Displacement Shift Complete Lattice
- 0-Lattice Theory
- Lattice-Matching to Silicon
- Lattice-Matching to Other Semiconductors
- Lattice-Matching to Sapphire
- Lattice-Matching to Other Ceramics
- Lattice-Matching to Metals
- Lattice-Matching of Organic Materials
- Miscellaneous Lattice-Matchings
- References
- Keywords