P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System

Light-responsive materials capable of undergoing photoinduced molecular transformation are excellent candidates for energy storage. Herein, we report a promising new liquid crystalline terpolymer that is capable of trapping the absorbed photon energy upon exposure to UV light through trans → cis iso...

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Published in:Journal of Physical Chemistry C
Main Author: Ibrahim A.R.; Khyasudeen M.F.; Husband J.; Alauddin S.M.; Aripin N.F.K.; Velayutham T.S.; Martinez-Felipe A.; Abou-Zied O.K.
Format: Article
Language:English
Published: American Chemical Society 2021
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85117722434&doi=10.1021%2facs.jpcc.1c07081&partnerID=40&md5=11223abc1b40a2614311e93b1a060ca8
id 2-s2.0-85117722434
spelling 2-s2.0-85117722434
Ibrahim A.R.; Khyasudeen M.F.; Husband J.; Alauddin S.M.; Aripin N.F.K.; Velayutham T.S.; Martinez-Felipe A.; Abou-Zied O.K.
P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
2021
Journal of Physical Chemistry C
125
41
10.1021/acs.jpcc.1c07081
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85117722434&doi=10.1021%2facs.jpcc.1c07081&partnerID=40&md5=11223abc1b40a2614311e93b1a060ca8
Light-responsive materials capable of undergoing photoinduced molecular transformation are excellent candidates for energy storage. Herein, we report a promising new liquid crystalline terpolymer that is capable of trapping the absorbed photon energy upon exposure to UV light through trans → cis isomerization and molecular aggregation. MeOAzB-T (contains p-methoxyazobenzene, 2-acrylamido-2-methyl-1-propanesulfonic acid, and methyl(methacrylate) monomeric units) shows a trans cis normal thermal recovery in solution (THF) after UV exposure, whereas in the glassy state (at 22 °C) and smectic phase (at 75 °C), the recovery process indicates an unusual increase in absorbance of the trans isomer. Surprisingly, when the smectic phase was cooled down to the glassy state while maintaining UV exposure, the increase in absorbance of the trans isomer was maintained at the same level in the dark (monitored for 20 days) until the sample was heated to 75 °C and then cooled to 22 °C in which a full recovery was achieved. Enhancement of H- and J-aggregations of the trans-MeOAzB units was found to be responsible for the absorbance increase. Both forms of aggregation have absorbance signatures and were reproduced by time-dependent density functional theory (TD-DFT). A long lifetime component was detected in the femtosecond transient absorption (TA) spectra in thin films (215 ps in the glass state and 97 ps in the smectic phase) and was assigned to a long-lived intermediate state as a result of aggregation. The stability of the excited state leads to more aggregation as a consequence of the larger dipole moment, compared to the ground state, which is manifested in the TD-DFT calculations as an increase in electron density at the central azo bond. The current results suggest that aggregation after UV irradiation can be maintained for a long time at room temperature and can be relaxed to the original configuration by heating above the glass transition, showing the suitability of MeOAzB-T as a solar thermal fuel. © 2021 American Chemical Society.
American Chemical Society
19327447
English
Article
All Open Access; Green Open Access
author Ibrahim A.R.; Khyasudeen M.F.; Husband J.; Alauddin S.M.; Aripin N.F.K.; Velayutham T.S.; Martinez-Felipe A.; Abou-Zied O.K.
spellingShingle Ibrahim A.R.; Khyasudeen M.F.; Husband J.; Alauddin S.M.; Aripin N.F.K.; Velayutham T.S.; Martinez-Felipe A.; Abou-Zied O.K.
P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
author_facet Ibrahim A.R.; Khyasudeen M.F.; Husband J.; Alauddin S.M.; Aripin N.F.K.; Velayutham T.S.; Martinez-Felipe A.; Abou-Zied O.K.
author_sort Ibrahim A.R.; Khyasudeen M.F.; Husband J.; Alauddin S.M.; Aripin N.F.K.; Velayutham T.S.; Martinez-Felipe A.; Abou-Zied O.K.
title P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
title_short P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
title_full P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
title_fullStr P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
title_full_unstemmed P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
title_sort P-Methoxy Azobenzene Terpolymer as a Promising Energy-Storage Liquid Crystal System
publishDate 2021
container_title Journal of Physical Chemistry C
container_volume 125
container_issue 41
doi_str_mv 10.1021/acs.jpcc.1c07081
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85117722434&doi=10.1021%2facs.jpcc.1c07081&partnerID=40&md5=11223abc1b40a2614311e93b1a060ca8
description Light-responsive materials capable of undergoing photoinduced molecular transformation are excellent candidates for energy storage. Herein, we report a promising new liquid crystalline terpolymer that is capable of trapping the absorbed photon energy upon exposure to UV light through trans → cis isomerization and molecular aggregation. MeOAzB-T (contains p-methoxyazobenzene, 2-acrylamido-2-methyl-1-propanesulfonic acid, and methyl(methacrylate) monomeric units) shows a trans cis normal thermal recovery in solution (THF) after UV exposure, whereas in the glassy state (at 22 °C) and smectic phase (at 75 °C), the recovery process indicates an unusual increase in absorbance of the trans isomer. Surprisingly, when the smectic phase was cooled down to the glassy state while maintaining UV exposure, the increase in absorbance of the trans isomer was maintained at the same level in the dark (monitored for 20 days) until the sample was heated to 75 °C and then cooled to 22 °C in which a full recovery was achieved. Enhancement of H- and J-aggregations of the trans-MeOAzB units was found to be responsible for the absorbance increase. Both forms of aggregation have absorbance signatures and were reproduced by time-dependent density functional theory (TD-DFT). A long lifetime component was detected in the femtosecond transient absorption (TA) spectra in thin films (215 ps in the glass state and 97 ps in the smectic phase) and was assigned to a long-lived intermediate state as a result of aggregation. The stability of the excited state leads to more aggregation as a consequence of the larger dipole moment, compared to the ground state, which is manifested in the TD-DFT calculations as an increase in electron density at the central azo bond. The current results suggest that aggregation after UV irradiation can be maintained for a long time at room temperature and can be relaxed to the original configuration by heating above the glass transition, showing the suitability of MeOAzB-T as a solar thermal fuel. © 2021 American Chemical Society.
publisher American Chemical Society
issn 19327447
language English
format Article
accesstype All Open Access; Green Open Access
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