Modeling the Growth and Molecular Structure of Electrically Conducting Polymers: Application to Polypyrrole

Structural changes proceeding in composites under the effect of various mechanical deformations (stretching, compression, shear, etc.) affect the structure of an electrical conducting system. Mechanical stresses, induced by deformation of composite materials during deformation, affect both the molec

We are exploring the electronic properties of novel materials such as conducting polymer-coated polyester fibres and charge transfer complexes configured in resistive, gated (FET) and diode configurations. In this paper we will consider several areas where we are attempting to make sensors and/ or p

Self-organizing Kohonen neural networks can be used to obtain quantitative structure-activity relationships. Simple molecules have been selected to discuss the essential features of the transformation. Descriptors calculated from maps obtained from comparative studies with template molecules applied

The electric fields of the spatial Green's functions of microstrip structures are calculated by numerically integrating the Sommerfeld integrals along the Sommerfeld integration paths. To facilitate and accelerate con¨ergence, a higher order asymptotic extraction is made in the integrand. The electr

## Ž . A comparison of DFT᎐LSD᎐CGA DZVPrA1 and DZVP2rA2 and restricted Ž . Ž . Hartree᎐Fock RHF 6-31G and 6-311G\*\* results on geometries, dipole moments, and electric polarizabilities of a series of molecules incorporating quinoid or phenyl groups in the skeleton is reported. DFT results, obtain