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Document Description
Title
Configuration
interaction
(singles)
study
of
geometric
and
electronic
properties
of
conducting
polymers
Author
Chakraborty
,
Debanond
,
1970-
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
2000.
Physics
and
Physical
Oceanography
Date
2000
Pagination
xviii, 254 leaves : ill. (some col.)
Subject
Conducting
polymers;
Electronic
structure
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Dept. of Physics and Physical Oceanography
Discipline
Physics and Physical Oceanography
Language
eng
Notes
Bibliography:
leaves
162-182
Abstract
The
nature
of the
geometric
and
electronic
transitions
taking
place
in
7r-conjugated
oligo(thiophene)s
,
oligo(cyclopentadiene)s
,
oligo(fulvene)s
and their
cyano
based
derivatives
are
investigated
using
an
ab
initio
approach
,
including
correlation
effects.
Theoretical
evidence
based
on
excited
state
electronic
studies
ofthe
most
stable
forms
of
thiophene
and
cyclopentadiene
based
oligomers
show
that
thecyano-derivatives
of these
polymers
possess
smaller
intrinsic
band
gaps
than their
parents.
The
geometries
of these
neutral
five-membered
ring
oligomers
have been
optimized
using
the
ab
initio
restricted
Hartree-Fock
method
followed
by the
single
configuration
interaction
(CIS)
technique
with
3-2IG*
basis
set
within
the
framework
of
Gaussian
94.
It
has been
observed
that the
3-2IG*
basis
set
describes
the
qualitative
geometric
and
electronic
features
reliably.
Single
substitution
of
electrons
in the
lowest
unoccupied
molecular
orbitals
(conduction
band)
from the
highest
occupied
molecular
orbitals
(valence
band)
shows
good
agreements
with the
experimentally
observed
excited
state
energies
(where
available)
for the
six
molecular
systems
investigated
in this
study.
Of
these
, the
lowest
was for the
tetramer
of
poly-(dicyanomethylene
cyclopentadithiophene)
(1.63
eV)
,
followed
by
poly-(dicyanomethylene
cyclopentadifulvene)
(2.34
eV)
and
poly-(dicyano-methylene
cyclopentadicyclopentadiene)
(2.57
eV).
The
molecular
geometric
modifications
in
going
from the
ground
to the
lowest
excited
state
show
particular
trends
towards
a
full
aromatic
benzoid
like
structure
with
almost
equal
bond
lengths
along
the
molecular
backbone.
The
heteroatomic
substitutions
and the
geometry
relaxation
phenomenon
show
an
efficient
approach
to
band
gap
control.
The
geometry
relaxation
phenomena
occurring
in the
singlet
and
triplet
states
show
more
pronounced
and
localized
bond
length
alternations
in the
triplet
states
,
confirming
the
more
localized
character
of
triplet
states.
Maximum
planarity
,
weak
interactions
of the
chain
backbone
with the
bridging
group
,
enhanced
ir
character
of the
highest
occupied
and the
lowest
unoccupied
molecular
orbitals
along
with
charge
transfer
phenomenon
also
contribute
to
band
gap
lowering.
For these
oligomers
, the
evolution
of the
lowest
energy
,
singlet-triplet
transitions
with
chain
length
ranging
from
one
to
eight
rings
, has also been
investigated.
The
lowest
three
singlet
and
three
triplet
states
are
characterized
with the
oscillator
strengths
in the
oligomers
along
with the
lattice
distortions
taking
place
due
to the
tz
—
ir*
transitions.
The
inclusion
of
electron
correlation
results
in a
significant
reduction
in the
band
gap
and
shows
excellent
agreement
with the
experimental
results.
The
calculated
transition
energies
are
within
0.1—0.4
eV
of the
experimental
results.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a1475517
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(41.54
MB)
--
http://collections.mun.ca/PDFs/theses/Chakraborty_Debanond.pdf
CONTENTdm file name
41920.cpd
