The excited-state symmetry-breaking charge transfer (SBCT) dynamics in quadrupolar or octupolar molecules without clear infrared markers is usually hard to be tracked directly. In this work, on the basis of the evolution of instantaneous emission dipole moment obtained by femtosecond transient fluorescence spectroscopy, we presented a real-time characterization of the solvent-induced SBCT dynamics in an octupolar triphenylamine derivative. While the emission dipole moment of the octupolar trimer in weakly polar toluene changes little during the excited-state relaxation, it exhibits a fast reduction in a few picoseconds in strongly polar tetrahydrofuran. In comparison with the fluorescence dynamics of dipolar monomer, we deduced that the emitting state of the octupolar trimer in strongly polar solvent, which undergoes solvent-induced structural fluctuation, changes from exciton-coupled octupolar to excitation localized dipolar symmetry. In weakly polar solvent, the octupolar symmetry of the trimer is largely preserved during the solvation stabilization.

[1]
Z. R.
Grabowski
,
K.
Rotkiewicz
, and
W.
Rettig
,
Chem. Rev.
103
,
3899
(
2003
).
[2]
E. M.
Kosower
,
J. Am. Chem. Soc.
107
,
1114
(
1985
).
[3]
M.
Albota
,
D.
Beljonne
,
J. L.
Brdas
,
J. E.
Ehrlich
,
J. Y.
Fu
,
A. A.
Heikal
,
S. E.
Hess
,
T.
Kogej
,
M. D.
Levin
, and
S. R.
Marder
,
Science
281
,
1653
(
1998
).
[4]
R. L.
Sutherland
,
M. C.
Brant
,
J.
Heinrichs
,
J. E.
Rogers
,
J. E.
Slagle
,
D. G.
McLean
, and
P. A.
Fleitz
,
J. Opt. Soc. Am. B
22
,
1939
(
2005
).
[5]
W.
Denk
,
J.
Strickler
, and
W.
Webb
,
Science
248
,
73
(
1990
).
[6]
B. H.
Cumpston
,
S. P.
Ananthavel
,
S.
Barlow
,
D. L.
Dyer
,
J. E.
Ehrlich
,
L. L.
Erskine
,
A. A.
Heikal
,
S. M.
Kuebler
,
I. Y. S.
Lee
,
D.
McCord-Maughon
,
J.
Qin
,
H.
Röckel
,
M.
Rumi
,
X. L.
Wu
,
S. R.
Marder
, and
J. W.
Perry
,
Nature
398
,
51
(
1999
).
[7]
M.
Tromayer
,
P.
Gruber
,
M.
Markovic
,
A.
Rosspeintner
,
E.
Vauthey
,
H.
Redl
,
A.
Ovsianikov
, and
R.
Liska
,
Polym. Chem.
8
,
451
(
2017
).
[8]
H. J.
Ding
,
J.
Sun
, and
C. K.
Wang
,
Chin. J. Chem. Phys.
25
,
666
(
2012
).
[9]
L. J.
Gong
,
Y. H.
Wang
,
Z. H.
Kang
,
T. H.
Huang
,
R.
Lu
, and
H. Z.
Zhang
,
Chin. J. Chem. Phys.
25
,
636
(
2012
).
[10]
J.
Li
,
C. K.
Wang
, and
Y. Z.
Song
,
Chin. J. Chem. Phys.
30
,
63
(
2017
).
[11]
Z.
Yang
,
N.
Li
,
A. D.
Xia
,
Q. G.
He
,
H. Z.
Lin
, and
F. L.
Bai
,
Chin. J. Chem. Phys.
20
,
500
(
2007
).
[12]
H.
Song
,
Z.
Kuang
,
X.
Wang
,
Y.
Guo
,
Q.
Guo
,
H.
Zhang
, and
A.
Xia
,
J. Phys. Chem. C
122
,
15108
(
2018
).
[13]
Z.
Kuang
,
Q.
Guo
,
X.
Wang
,
H.
Song
,
M.
Maroncelli
, and
A.
Xia
,
J. Phys. Chem. Lett.
9
,
4174
(
2018
).
[14]
Y.
Gong
,
X.
Guo
,
S.
Wang
,
H.
Su
,
A.
Xia
,
Q.
He
, and
F.
Bai
,
J. Phys. Chem. A
111
,
5806
(
2007
).
[15]
G.
He
,
J.
Shao
,
Y.
Li
,
J.
Hu
,
H.
Zhu
,
X.
Wang
,
Q.
Guo
,
C.
Chi
, and
A.
Xia
,
Phys. Chem. Chem. Phys.
18
,
6789
(
2016
).
[16]
G.
Ramakrishna
and
T.
Goodson
,
J. Phys. Chem. A
111
,
993
(
2007
).
[17]
F.
Terenziani
,
C.
Sissa
, and
A.
Painelli
,
J. Phys. Chem. B
112
,
5079
(
2008
).
[18]
X.
He
,
Y.
Liu
,
X.
Du
,
Y.
Yang
,
B.
Xu
,
W.
Tian
, and
Y.
Ma
,
Chem. Phys. Lett.
501
,
296
(
2011
).
[19]
S.
Das
,
W. G.
Thornbury
,
A. N.
Bartynski
,
M. E.
Thompson
, and
S. E.
Bradforth
,
J. Phys. Chem. Lett.
9
,
3264
(
2018
).
[20]
A.
Mikhaylov
,
M.
Uudsemaa
,
A.
Trummal
,
E.
Arias
,
I.
Moggio
,
R.
Ziolo
,
T. M.
Cooper
, and
A.
Rebane
,
J. Phys. Chem. Lett.
9
,
1893
(
2018
).
[21]
K.
Miyata
,
Y.
Kurashige
,
K.
Watanabe
,
T.
Sugimoto
,
S.
Takahashi
,
S.
Tanaka
,
J.
Takeya
,
T.
Yanai
, and
Y.
Matsumoto
,
Nat. Chem.
9
,
983
(
2017
).
[22]
[23]
N.
Dozova
,
L.
Ventelon
,
G.
Clermont
,
M.
Blanchard-Desce
, and
P.
Plaza
,
Chem. Phys. Lett.
664
,
56
(
2016
).
[24]
R.
Stahl
,
C.
Lambert
,
C.
Kaiser
,
R.
Wortmann
, and
R.
Jakober
,
Chem. Eur. J.
12
,
2358
(
2006
).
[25]
D.
Guillaumont
and
C.
Daniel
,
Coord. Chem. Rev.
177
,
181
(
1998
).
[26]
B.
Dereka
,
A.
Rosspeintner
,
Z.
Li
,
R.
Liska
, and
E.
Vauthey
,
J. Am. Chem. Soc.
138
,
4643
(
2016
).
[27]
A. I.
Ivanov
,
B.
Dereka
, and
E.
Vauthey
,
J. Chem. Phys.
146
,
164306
(
2017
).
[28]
T.
Kim
,
W.
Kim
,
H.
Mori
,
A.
Osuka
, and
D.
Kim
,
J. Phys. Chem. C
122
,
19409
(
2018
).
[29]
J. S.
Beckwith
,
A.
Rosspeintner
,
G.
Licari
,
M.
Lunzer
,
B.
Holzer
,
J.
Fröhlich
, and
E.
Vauthey
,
J. Phys. Chem. Lett.
8
,
5878
(
2017
).
[30]
B.
Dereka
,
A.
Rosspeintner
,
R.
Stȩżycki
,
C.
Ruckebusch
,
D. T.
Gryko
, and
E.
Vauthey
,
J. Phys. Chem. Lett.
8
,
6029
(
2017
).
[31]
B.
Dereka
and
E.
Vauthey
,
J. Phys. Chem. Lett.
8
,
3927
(
2017
).
[32]
F.
Terenziani
,
A.
Painelli
,
C.
Katan
,
M.
Charlot
, and
M.
Blanchard-Desce
,
J. Am. Chem. Soc.
128
,
15742
(
2006
).
[33]
T.
Kim
,
J.
Kim
,
H.
Mori
,
S.
Park
,
M.
Lim
,
A.
Osuka
, and
D.
Kim
,
Phys. Chem. Chem. Phys.
19
,
13970
(
2017
).
[34]
H.
Khandelwal
,
A. R.
Mallia
,
R. T.
Cheriya
, and
M.
Hariharan
,
Phys. Chem. Chem. Phys.
14
,
15282
(
2012
).
[35]
V.
Markovic
,
D.
Villamaina
,
I.
Barabanov
,
L. M. Lawson
Daku
, and
E.
Vauthey
,
Angew. Chem. Int. Ed.
123
,
7738
(
2011
).
[36]
N.
Banerji
,
A.
Frstenberg
,
S.
Bhosale
,
A. L.
Sisson
,
N.
Sakai
,
S.
Matile
, and
E.
Vauthey
,
J. Phys. Chem. B
112
,
8912
(
2008
).
[37]
G.
Wu
,
G.
Zhao
,
C.
He
,
J.
Zhang
,
Q.
He
,
X.
Chen
, and
Y.
Li
,
Sol. Energy Mater. Sol. Cells
93
,
108
(
2009
).
[38]
L.
Gao
,
J.
Zhang
,
C.
He
,
S.
Shen
,
Y.
Zhang
,
H.
Liu
,
Q.
Sun
, and
Y.
Li
,
Sci. China Chem.
56
,
997
(
2013
).
[39]
Y.
Li
,
M.
Zhou
,
Y.
Niu
,
Q.
Guo
, and
A.
Xia
,
J. Chem. Phys.
143
,
034309
(
2015
).
[40]
Y.
Li
,
G.
He
,
X.
Wang
,
Q.
Guo
,
Y.
Niu
, and
A.
Xia
,
Chem Phys Chem
17
,
406
(
2016
).
[41]
Z.
Kuang
,
G.
He
,
H.
Song
,
X.
Wang
,
Z.
Hu
,
H.
Sun
,
Y.
Wan
,
Q.
Guo
, and
A.
Xia
,
J. Phys. Chem. C
122
,
3727
(
2018
).
[42]
G.
He
,
C.
Yu
,
Y.
Li
,
J.
Hu
,
Z.
Liu
,
D.
Zhang
,
Q.
Guo
, and
A.
Xia
,
Chem. Asian J.
11
,
2741
(
2016
).
[43]
M. T.
Whited
,
N. M.
Patel
,
S. T.
Roberts
,
K.
Allen
,
P. I.
Djurovich
,
S. E.
Bradforth
, and
M. E.
Thompson
,
Chem. Commun.
48
,
284
(
2012
).
[44]
L.
Reynolds
,
J. A.
Gardecki
,
S. J. V.
Frankland
,
M. L.
Horng
, and
M.
Maroncelli
,
J. Phys. Chem.
100
,
10337
(
1996
).
[45]
M. L.
Horng
,
J. A.
Gardecki
,
A.
Papazyan
, and
M.
Maroncelli
,
J. Phys. Chem.
99
,
17311
(
1995
).
[46]
G.
Ramakrishna
,
A.
Bhaskar
, and
T.
Goodson
,
J. Phys. Chem. B
110
,
20872
(
2006
).
[47]
G.
Angulo
,
G.
Grampp
, and
A.
Rosspeintner
,
Spectrochim. Acta. A Mol. Biomol. Spectrosc.
65
,
727
(
2006
).
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