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- Silicide - Wikipedia
A silicide is a type of chemical compound that combines silicon and a usually more electropositive element Silicon is more electropositive than carbon In terms of their physical properties, silicides are structurally closer to borides than to carbides
- Silicide - an overview | ScienceDirect Topics
A silicide, in the broadest definition, is a compound formed between silicon and any other element in the periodic table However, in the context of "inte-rmetallics", a silicide is an intermetallic compound formed between a metal species and silicon, and with specific ratios of the two species
- Silicide - an overview | ScienceDirect Topics
A silicide film is formed by the deposition of a metal thin film on a Si substrate and the solid-phase reaction with post-deposition annealing (PDA) Silicide is only formed between metal and Si on poly-Si gates and on S D contacts where metal comes directly into contact with Si
- SILICIDE Definition Meaning - Merriam-Webster
The meaning of SILICIDE is a binary compound of silicon with a more electropositive element or group
- Silicides and Silicidation
Equation 2036b forms a silicide, resulting in electrical short failure Some silicides can cause problems in IC devices For instance, copper migrating into silicon active areas can form copper silicide precipitates resulting in leakage current at source and drain shallow junctions
- PROPERTIES AND APPLICATIONS OF SILICIDES - Springer
Silicide-related studies have primarily focused on the investigation of fundamental properties such as electrical resistivity, high-temperature stability, and corrosion resistance, as well as the silicide
- What Are the Silicides? - SpringerLink
Silicide classification of elements in the periodic table is presented in Table 1 1 after Murarka
- Silicides: Fundamentals and Applications | The Science and Culture . . .
Silicide formation in systems based on dense silicon nitride and non-nitride forming metals can be explained by assuming a nitrogen pressure build-up at the contact surface This pressure determines the chemical potential of Si at the interface and, hence, the product phases in the diffusion zone
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