- Email: [email protected]
Substituent and solvent effects on the UV-absorption spectra of 2-phenylindan-1,3-dion-2-yl free radicals
283
.JourmlofMolecularSbucture,114(1984)283-286 Ekevier Science Publishers B.V., Amsterdam -
SUBSTITUENT
AND
SOLVENT
EFFECTS
2-PHENYLINDAN-1,3-DION-2-YL
ON THE
FREE
WBhringerstrasse Institute Sofia 3
38, A-1090
of Organic
1113,
_
University
F.FRATEV* und
Wien,
Chemistry,
UV-ASSORPTION
SPECTRA
OF
RADICALS
N.GETOFF1,1.TIMTCHEVA2, J.ZECHNERl, 1 Institut fijr Theoretische Chemie 2
printed in The Netherlands
and
ST.MINCHEV3
Strahlenchmie
der
Universitat
Wien,
Austria
Bulgarian
Academy
of Sciences,
Bulgaria of Shun-ten, Shumen,
Bulgaria
ABSTRACT 2-Phenylindan-1,3-dion-2-yl free radicals substituted in the 4'-position were produced by flash photolysis of the corresponding indandiones. Their UV-absorption spectra exhibit a pronounced solvent shift indicating a higher dipole moment in the excited state than in the ground state. Substituent effects were analyzed by means of a linear free energy relationship. The effects of substitution on the energy gap between the grcund and excited states of the free radicals and on the curvature of the excited state's energy hypersurface are discussed.
INTRODUCTION Derivatives ding a
on the
ijfl- band
the enole and
visible
Two
of P-phenylindandione
nature
of
at&e220
and
primary
forms
media
photoprocesses
OOZZ-2860/84/$03.00
0 1984
been
at approx.
300
in the most
for
these
formation
likely
Elsevier Science Publishers B.V.
after
forms
depen-
is responsible nm
absorption
acetonitrile;
observed
resulting
tautomeric
diketoform
to additional
(alcohols,
methylene-1-(3H)-isobenzofuranones,
the
snY-band
rise
have
process
in several
(refs.l,Z);
a weak give
in polar
(1) A photoisomerization
exist
solvent
nm and
enolate
range
the
for
in cyclohexane, bands
alkaline
compounds
in the
UV
water):
(ref.3):
of 3-phenylbond
splitting
due
to
28.4..
I’Norrish type I” mechanism. This is the predominant photoreaction
a
diketo
(2) A.spl.itting of the H-atom in &-position
to both keto groups from the diketo-
form or from the OH-group of the enol form or photoejection electron
from the enolabeform
the corresponding As has been pointed portance
for
several
ning substituent
respectively,
in all
Z-phenylindtin-1.3-dion-2-yl
free
out earlier
processes
effects
vent effects gy relationship
states
a:ld solvent
series analysis
(refs.8,9)
on the electronic
the relevant
these
for
cases
radicals
effects
of. a solvated under formation
radicals
of
(ref.3).
are of significant
interest.
It was now of interest
using a larger
and to perform a detailed
(ref.5)
of. -:echnol ogical
(ref.6)
have al ready been reported.
effects
from the
form (ref;4)
Some results
(ref.7)
im-
concer-
on their
spectra
to study substituent
and sol-
of derivatives
substituted
in the 4’-position
of the results
by appliing
a linear
the substituent
transitions
effects
free
and to interprete
in terms of electrostatic
ener-
solvent
influences
on
(refs.lO,ll).
METHODS The free responding
radicals
were generated
2-phenylindandione
of the experimental tus “Northern cribed
setups
Precision”)
by conventional
derivatives (applied
as well
flash
photolysis
in argon saturated
of the cor-
solutions.
Details
Photophysics, London, and a modified as of the synthesis of the indandiones
apparaare des-
elsewhere(refs.3,12).
RESULTSANDDISCUSSION UV-absorption
spectra
of transient
The UV-absorption ten 4’-substituted ethanol
absorption
(740 nm), alkaline The absorption
spectra
radicals
12).
by flash
were taken
of this
transi.ent
is furthermore
of
cyclohexane,
tu-
(735 nm), methanol
(670 nm) and n-heptane
(665 nm).
are in good agreement with those of the
(refs.13-15)
of the observed
photolysis in
For the 4’-dimethylamino-substi
maxima were measured in ethanol
produced by photo&is free
(ref.
assignment
obtained
of 2-phenylindandione
water (750 nm), cyclohexane
dimer. The assignment -Z-y1
and their
of the transients
derivatives
and al kal ine water (pH=lZ)
ted derivative
species
spectra
species
or thermolysis
transient
spectra
backed by the fact
(refs.6,13-15)
of the
to 2-arylindan-1,3-dionthat the decay of the radi-
cals leads back to the dimar. This dimer can also be prepared by radical-mediated one-electron oxidation (e.9. with HNO3, K3CFe(CN)6] or 12/0H- (ref.5). Sol vent effects A marked solvent of the absorption was observed.
dependence
(25 solvents
were examined,
this work and ref.-/)
maximumof the 2-(4’-aminophenyl)indandion-2-yl
Al though as a rule neither
fluorescence
.free radical
data nor ground state
285
dipole to
morremts or polarizabilities
correlate
the solvent
lations
(refs.lO,ll):
Despite
rather
terpretation in solutions
poles
tained These
the results
all
by fitting values
The ground
(2)
The excited
(3)
Effects Because
should
of
state
the
with
last
with
solute
first
cm-l)
following
are
the
term in eq.(3) and induced
agreed
in-
the absorptions which
solvent
di-
With this
cm-l_
interactions) well
in polar
with
that
solvents
ob-
(P72D).
interpretation:
higher
dipoles
re-
equations
term (dipole-dipole
has a permanent
in this
was attempted
following
(A+C)=-22500
the absorptions
the
radical
both
dipoles
yielding
(D=-1050
has a considerably
induced
dipole
dipole of
monent.
moment.
minor
importance.
treatmen t quantitative
conclusions
care.
effects
The UV-absorption bathochromically relation
term with
the approximations
be taken
Substi tuent
last
of
it the
Therefore
to the
solute
dipoles, to the
radicals
doubtful.
fitted
The result
in agreement
state
due to of
fitted
data.
the
are
(1)
were
free
by means of
by fitting
rather
permanent
induced
were
25 solvent
radical
obtained
between
as mutually
known for
this
remains
momentsp(lD
dipole
as well
using
the results
interactions
constant
of
good correlations of
represents
are
shifts
diagrams
spectra
of
the arylindandionyl
upon substitution according
to
(ref .12).
free
From the
the Hammett equations
are
radicals spectra
(4)
shifted
in ethanol
and (5)
cor-
were con-
s tructed. (4) (5)
As found consists Similar alkaline
of
for
vari,ous
two branches. shifts
water.
of
closed
she!1
organic
The reaction
the absorption
compounds
constants”3
spectra
are
(ref.9). given
were obtained
each
diagram
in table
in cyclohexane
1. and
in
Ham& (
correlation
9 A)
and
wavelenght
coefficients
O-O transitions edge
of
the
for. (soo;
absorption
estimated band)
aminophenyl)indan-1,3-dion-2-yl difference
absorption
free
maxima from
of
radicals
the
long
2-(4’-dimethyland
their
xl 7
.eoo
TA
I
%
Ccm-1]
GP
0
612
103
.-1.74
103
6.6 103 -1.5
103
-3.0 2.2
lo2 102 A
Similar shifts of the absorption spectra are obtained in cyclohexane and water. For the arylindandionyl free radicals both geometry changes and changes of the force constants upon substitution are obviously small.
REFERENCES 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
S.V.Kalinin (ed.),Structure.and Tautomerization Rearrangements of !3-Dicarbonylic Compounds, Zinatne, Riga, 1977 (in Russian) L.Linaberg;O.Nej,land, A.Veiss,G.Vanag, Cokl.Akad.Nauk S.S.S.R., 154, ( 1964) 1388 mechner, G.I.Grabner, G.Kijhler, N.Getoff, I.Timtcheva, F.Fratev, St.Minchev, J.Photochem., in print d.Rigaudy and P.Derible, Bull.Soc.Chim.France, (1965) 3047,3055,3061 V.V. Moiseev, I.T.Poluektov, Usp.Khim., 42, (1973) 471 A.I.Yasmenko, A.A.Kuznetsov, I.V.Khudyakov, Zh.Fiz.Khim., 54 (1980) 1776 A.I.Yasmanko, A.P.Wardin, I.V.Khudyakov, V.A.Kuzmin, Izv.Akad.Nauk S.S.S.R.,Ser.Khim., (1980) 2014 O.E.Polansky, F.Fratev, P.Nikolov, Z.Naturforsch., e, (1981) 197 F.Fratev, P.Nikolov, O.E.Polansky, Z.Naturforsch,. z, (1982) 1341 N.G.Eakshiev, Opt. i Spektros. 10 (1961) 717 M.F.Nicol, Appl.Spectros.Rev., 8(1974) 183 J .Zechner, N.Getoff, I .Timtcheva, F.Fratev, St.Minchev, Z.Naturforsch., in print I.V.Khudyakov, A.I.Yasmenko, V.A.Kuzmin, Int.J.Chem.Kinet., 11 (1979) 621 A.I.Yasmenko, I.V.Khudyakov, A.P.Darmanjan, V.A.Kuzmin and Sxlaesson, Chem.Scripta, 18 (1981) 49 I.V.Khudyakov,T.I.Yasmenko, A.P.Khardin, A.I.Prokovev and V.A.Kuzmin, Izv.Akad.Nauk S.S.S.R.,Ser.Khim., (1978) 1499
.JourmlofMolecularSbucture,114(1984)283-286 Ekevier Science Publishers B.V., Amsterdam -
SUBSTITUENT
AND
SOLVENT
EFFECTS
2-PHENYLINDAN-1,3-DION-2-YL
ON THE
FREE
WBhringerstrasse Institute Sofia 3
38, A-1090
of Organic
1113,
_
University
F.FRATEV* und
Wien,
Chemistry,
UV-ASSORPTION
SPECTRA
OF
RADICALS
N.GETOFF1,1.TIMTCHEVA2, J.ZECHNERl, 1 Institut fijr Theoretische Chemie 2
printed in The Netherlands
and
ST.MINCHEV3
Strahlenchmie
der
Universitat
Wien,
Austria
Bulgarian
Academy
of Sciences,
Bulgaria of Shun-ten, Shumen,
Bulgaria
ABSTRACT 2-Phenylindan-1,3-dion-2-yl free radicals substituted in the 4'-position were produced by flash photolysis of the corresponding indandiones. Their UV-absorption spectra exhibit a pronounced solvent shift indicating a higher dipole moment in the excited state than in the ground state. Substituent effects were analyzed by means of a linear free energy relationship. The effects of substitution on the energy gap between the grcund and excited states of the free radicals and on the curvature of the excited state's energy hypersurface are discussed.
INTRODUCTION Derivatives ding a
on the
ijfl- band
the enole and
visible
Two
of P-phenylindandione
nature
of
at&e220
and
primary
forms
media
photoprocesses
OOZZ-2860/84/$03.00
0 1984
been
at approx.
300
in the most
for
these
formation
likely
Elsevier Science Publishers B.V.
after
forms
depen-
is responsible nm
absorption
acetonitrile;
observed
resulting
tautomeric
diketoform
to additional
(alcohols,
methylene-1-(3H)-isobenzofuranones,
the
snY-band
rise
have
process
in several
(refs.l,Z);
a weak give
in polar
(1) A photoisomerization
exist
solvent
nm and
enolate
range
the
for
in cyclohexane, bands
alkaline
compounds
in the
UV
water):
(ref.3):
of 3-phenylbond
splitting
due
to
28.4..
I’Norrish type I” mechanism. This is the predominant photoreaction
a
diketo
(2) A.spl.itting of the H-atom in &-position
to both keto groups from the diketo-
form or from the OH-group of the enol form or photoejection electron
from the enolabeform
the corresponding As has been pointed portance
for
several
ning substituent
respectively,
in all
Z-phenylindtin-1.3-dion-2-yl
free
out earlier
processes
effects
vent effects gy relationship
states
a:ld solvent
series analysis
(refs.8,9)
on the electronic
the relevant
these
for
cases
radicals
effects
of. a solvated under formation
radicals
of
(ref.3).
are of significant
interest.
It was now of interest
using a larger
and to perform a detailed
(ref.5)
of. -:echnol ogical
(ref.6)
have al ready been reported.
effects
from the
form (ref;4)
Some results
(ref.7)
im-
concer-
on their
spectra
to study substituent
and sol-
of derivatives
substituted
in the 4’-position
of the results
by appliing
a linear
the substituent
transitions
effects
free
and to interprete
in terms of electrostatic
ener-
solvent
influences
on
(refs.lO,ll).
METHODS The free responding
radicals
were generated
2-phenylindandione
of the experimental tus “Northern cribed
setups
Precision”)
by conventional
derivatives (applied
as well
flash
photolysis
in argon saturated
of the cor-
solutions.
Details
Photophysics, London, and a modified as of the synthesis of the indandiones
apparaare des-
elsewhere(refs.3,12).
RESULTSANDDISCUSSION UV-absorption
spectra
of transient
The UV-absorption ten 4’-substituted ethanol
absorption
(740 nm), alkaline The absorption
spectra
radicals
12).
by flash
were taken
of this
transi.ent
is furthermore
of
cyclohexane,
tu-
(735 nm), methanol
(670 nm) and n-heptane
(665 nm).
are in good agreement with those of the
(refs.13-15)
of the observed
photolysis in
For the 4’-dimethylamino-substi
maxima were measured in ethanol
produced by photo&is free
(ref.
assignment
obtained
of 2-phenylindandione
water (750 nm), cyclohexane
dimer. The assignment -Z-y1
and their
of the transients
derivatives
and al kal ine water (pH=lZ)
ted derivative
species
spectra
species
or thermolysis
transient
spectra
backed by the fact
(refs.6,13-15)
of the
to 2-arylindan-1,3-dionthat the decay of the radi-
cals leads back to the dimar. This dimer can also be prepared by radical-mediated one-electron oxidation (e.9. with HNO3, K3CFe(CN)6] or 12/0H- (ref.5). Sol vent effects A marked solvent of the absorption was observed.
dependence
(25 solvents
were examined,
this work and ref.-/)
maximumof the 2-(4’-aminophenyl)indandion-2-yl
Al though as a rule neither
fluorescence
.free radical
data nor ground state
285
dipole to
morremts or polarizabilities
correlate
the solvent
lations
(refs.lO,ll):
Despite
rather
terpretation in solutions
poles
tained These
the results
all
by fitting values
The ground
(2)
The excited
(3)
Effects Because
should
of
state
the
with
last
with
solute
first
cm-l)
following
are
the
term in eq.(3) and induced
agreed
in-
the absorptions which
solvent
di-
With this
cm-l_
interactions) well
in polar
with
that
solvents
ob-
(P72D).
interpretation:
higher
dipoles
re-
equations
term (dipole-dipole
has a permanent
in this
was attempted
following
(A+C)=-22500
the absorptions
the
radical
both
dipoles
yielding
(D=-1050
has a considerably
induced
dipole
dipole of
monent.
moment.
minor
importance.
treatmen t quantitative
conclusions
care.
effects
The UV-absorption bathochromically relation
term with
the approximations
be taken
Substi tuent
last
of
it the
Therefore
to the
solute
dipoles, to the
radicals
doubtful.
fitted
The result
in agreement
state
due to of
fitted
data.
the
are
(1)
were
free
by means of
by fitting
rather
permanent
induced
were
25 solvent
radical
obtained
between
as mutually
known for
this
remains
momentsp(lD
dipole
as well
using
the results
interactions
constant
of
good correlations of
represents
are
shifts
diagrams
spectra
of
the arylindandionyl
upon substitution according
to
(ref .12).
free
From the
the Hammett equations
are
radicals spectra
(4)
shifted
in ethanol
and (5)
cor-
were con-
s tructed. (4) (5)
As found consists Similar alkaline
of
for
vari,ous
two branches. shifts
water.
of
closed
she!1
organic
The reaction
the absorption
compounds
constants”3
spectra
are
(ref.9). given
were obtained
each
diagram
in table
in cyclohexane
1. and
in
Ham& (
correlation
9 A)
and
wavelenght
coefficients
O-O transitions edge
of
the
for. (soo;
absorption
estimated band)
aminophenyl)indan-1,3-dion-2-yl difference
absorption
free
maxima from
of
radicals
the
long
2-(4’-dimethyland
their
xl 7
.eoo
TA
I
%
Ccm-1]
GP
0
612
103
.-1.74
103
6.6 103 -1.5
103
-3.0 2.2
lo2 102 A
Similar shifts of the absorption spectra are obtained in cyclohexane and water. For the arylindandionyl free radicals both geometry changes and changes of the force constants upon substitution are obviously small.
REFERENCES 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
S.V.Kalinin (ed.),Structure.and Tautomerization Rearrangements of !3-Dicarbonylic Compounds, Zinatne, Riga, 1977 (in Russian) L.Linaberg;O.Nej,land, A.Veiss,G.Vanag, Cokl.Akad.Nauk S.S.S.R., 154, ( 1964) 1388 mechner, G.I.Grabner, G.Kijhler, N.Getoff, I.Timtcheva, F.Fratev, St.Minchev, J.Photochem., in print d.Rigaudy and P.Derible, Bull.Soc.Chim.France, (1965) 3047,3055,3061 V.V. Moiseev, I.T.Poluektov, Usp.Khim., 42, (1973) 471 A.I.Yasmenko, A.A.Kuznetsov, I.V.Khudyakov, Zh.Fiz.Khim., 54 (1980) 1776 A.I.Yasmanko, A.P.Wardin, I.V.Khudyakov, V.A.Kuzmin, Izv.Akad.Nauk S.S.S.R.,Ser.Khim., (1980) 2014 O.E.Polansky, F.Fratev, P.Nikolov, Z.Naturforsch., e, (1981) 197 F.Fratev, P.Nikolov, O.E.Polansky, Z.Naturforsch,. z, (1982) 1341 N.G.Eakshiev, Opt. i Spektros. 10 (1961) 717 M.F.Nicol, Appl.Spectros.Rev., 8(1974) 183 J .Zechner, N.Getoff, I .Timtcheva, F.Fratev, St.Minchev, Z.Naturforsch., in print I.V.Khudyakov, A.I.Yasmenko, V.A.Kuzmin, Int.J.Chem.Kinet., 11 (1979) 621 A.I.Yasmenko, I.V.Khudyakov, A.P.Darmanjan, V.A.Kuzmin and Sxlaesson, Chem.Scripta, 18 (1981) 49 I.V.Khudyakov,T.I.Yasmenko, A.P.Khardin, A.I.Prokovev and V.A.Kuzmin, Izv.Akad.Nauk S.S.S.R.,Ser.Khim., (1978) 1499