Electronic structures of intercalation complexes of the layered compound 2H-TaS2
- 30 September 1987
- journal article
- Published by IOP Publishing in Journal of Physics C: Solid State Physics
- Vol. 20 (27) , 4315-4334
- https://doi.org/10.1088/0022-3719/20/27/011
Abstract
A quantitative study of the electronic properties of layered compound 2H-TaS2 and its Li, Pb and Sn intercalation complexes has been made. The authors report the self-consistent band structures obtained using the LMTO method. The results show that the rigid-band model is essentially correct for 2H-LiTaS2 but is an oversimplification for the post-transition-metal intercalation compounds. Changes in the electronic structure upon intercalation are discussed. Electrical conduction in 2H-PbTaS2 and SnTaS2 is found to be largely due to the p valence electrons from the intercalant Pb (Sn) layers, and this is considered to be a possible explanation for the considerable increase in the superconducting transition temperature following intercalation. The results are also compared with the observed optical and transport properties and a broad agreement is found.Keywords
This publication has 32 references indexed in Scilit:
- Calculations on the 3 × 3 charge density wave state in a 2H layer compoundJournal of Physics C: Solid State Physics, 1981
- Transmission spectra of lithium intercalation complexes of some layered transition-metal dichalcogenidesPhilosophical Magazine Part B, 1981
- A generalized scheme for niobium and tantalum dichalcogenides intercalated with post-transition elementsPhysica B+C, 1980
- The crystal structure of the intercalates SnTaS2 and SnNbS2Materials Research Bulletin, 1977
- Photoelectron spectra of 2H-TaS2and SnxTaS2Journal of Physics C: Solid State Physics, 1976
- The reflectivity spectra of some group VA transition metal dichalcogenidesJournal of Physics C: Solid State Physics, 1975
- Linear methods in band theoryPhysical Review B, 1975
- Metal intercalation compounds of TaS2: Preparation and propertiesThe Journal of Chemical Physics, 1973
- Superconductivity of Double Chalcogenides: Li x Ti 1.1 S 2Science, 1972
- Superconductivity in Layered Compounds with Variable Interlayer SpacingsPhysical Review Letters, 1971