Skip to the main content

Original scientific paper

Matrix Defectivity and Strange Electronic States of Polymers

G. Biczo ; Central Research Institute of Chemistry, Hungarian Academy of Sciences, H-1525 Budapest 114, P. O. Box 17, Hungary


Full text: english pdf 3.665 Kb

page 103-111

downloads: 304

cite


Abstract

The significance of matrix defectivity in creating unusual
electronic states in polymers and crystals is discussed in (i) non-
-self-consistent, (ii) self-consistent, (iii) better than self-consistent
and (iv) real physical level of approximations. The simplest inter-o
mediate and almost intermediate one-electron states are derived
in a very elementary way for end-perturbed finite monoatomic
linear chains by the direct recursion (transfer matrix) method. A
linear model chain is given with two-atomic elementary cells,
which has the inner-band intermediate state. Instead of the usual
energy-wave vector plot of the band theory, a simpler lambda-x
dispersion (LXD) diagram is introduced to represent the band
structure. Better terminations are proposed to the creation of intermediate states in earlier studied polymers at the second (ab initio
Hartree-Fock) level on the ground of trivial first (Huckel) level
calculations. More complicated defectivities are sketched. Design
of polymeric intermediate states is treated.

Keywords

Hrčak ID:

175878

URI

https://hrcak.srce.hr/175878

Publication date:

28.4.1988.

Visits: 739 *