Electronic energy-band structure of t r a n s-polyacetylene: EHCO and MNDO studies
- 1 October 1979
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 50 (10) , 6088-6090
- https://doi.org/10.1063/1.325776
Abstract
Extended Hückel and MNDO programs developed for molecular systems have been modified without reparametrization to perform crystal orbital calculations. A comparison of the qualitative results of these methods with the extended tight binding results of Grant as applied to the band structure calculation of trans‐polyacetylene is presented. It is demonstrated that the ETB, EHCO, and MNDO methods give results which show a similar trend with minor differences in detail. The usefulness of the crystal orbital method for the interpretation of experimental density of state curves of doped and undoped polymers is inferred from this study and previous studies on polyethylene.This publication has 15 references indexed in Scilit:
- Anisotropic optical properties of pure and doped polyacetyleneSolid State Communications, 1978
- Highly conducting iodine derivatives of polyacetylene: Raman, XPS and x-ray diffraction studiesThe Journal of Chemical Physics, 1978
- Polyacetylene, (CH)x: n-type and p-type doping and compensationApplied Physics Letters, 1978
- The structures of c i s-polyacetylene and highly conducting derivativesThe Journal of Chemical Physics, 1978
- Synthesis of highly conducting films of derivatives of polyacetylene, (CH)xJournal of the American Chemical Society, 1978
- Electrical Conductivity in Doped PolyacetylenePhysical Review Letters, 1977
- Study of the electronic energy band structure of polyethylene using MINDO/3Chemical Physics Letters, 1974
- Electronic structure of polyethylene: Theory and ESCA measurementsThe Journal of Chemical Physics, 1974
- THEORY OF ONE-DIMENSIONAL MOTT SEMICONDUCTORS AND THE ELECTRONIC STRUCTURE OF LONG MOLECULES HAVING CONJUGATED BONDSSoviet Physics Uspekhi, 1973
- Electronic Structures of Polymers Using the Tight-Binding Approximation. I. Polyethylene by the Extended Hückel MethodThe Journal of Chemical Physics, 1970