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Sworakovski, J., Nešpůrek, S., Wang, G., Weiter, M.
Original Title
Light controlled charge carrier mobilities on polymer chain. Towards a molecular switch
Type
conference paper
Language
English
Original Abstract
Proposed switch consist of molecular wire ( - and conjugated polymers) which side chains contain reversible photochromic moieties. The chemical structure of the side chains strongly affects electron structure of the polymer, the energy of the gap and optical properties above all. Very often the dipole moment of the metastable form of photochromic system is higher than that of the stable form, and this feature allows control of the polymer chain conjugation, and hence a change in the on-chain mobility of charge carriers. Thus, a molecular switch is based on the principle of controlled electrical conductivity of the polymer. - and conjugated polymers, polymers with photochromic side chains or with side chains containing functional groups able to change their dipole moment by light seems to be a favourable materials for molecular switch
Keywords
molecular swoitch, charge transport, charge mobility
Authors
RIV year
2004
Released
10. 7. 2003
Publisher
PTEE
Location
Avignon
ISBN
90-4872-4
Book
Proc. of 7th European Conference on Molecular Electronics ECME
Edition
1
Edition number
Pages from
48
Pages to
Pages count
BibTex
@inproceedings{BUT12047, author="Juliusz {Sworakowski} and Stanislav {Nešpůrek} and Geng {Wang} and Martin {Weiter}", title="Light controlled charge carrier mobilities on polymer chain. Towards a molecular switch", booktitle="Proc. of 7th European Conference on Molecular Electronics ECME", year="2003", series="1", number="1", pages="1", publisher="PTEE", address="Avignon", isbn="90-4872-4" }