Charge Transfer Process of a Solvated Hydrogen-Bonded Organic Network

Ahmed M. El-Zohry; Theis Sølling; A. E. Hussien; Osama Shekhah; Aslam C. Shaikh; Mohamed Eddaoudi

doi:10.1021/acs.jpcb.3c05642

Charge Transfer Process of a Solvated Hydrogen-Bonded Organic Network

Ahmed M. El-Zohry^*, Theis Sølling, A. E. Hussien, Osama Shekhah, Aslam C. Shaikh, Mohamed Eddaoudi

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

We show the first example of an organic linker (OL) terminated by carboxylic groups that can form a hydrogen-bonded network/polymer (HBN) in solution under controlled conditions in which the photogenerated charges can hop from a monomer OL to the hydrogen-bonded backbone of OLs, as probed by transient absorption (fs-TA). While fs-TA reveals a slow twisting process in the monomer form of the OL, the formation of a hydrogenbonded network in solution suppresses such process and favors instead a charge transfer (CT) state along the low-lying hydrogen-bonded backbone. Theoretical calculations show that such solvated HBN in a specific polar solvent is stabilized due to the huge change of the dipole moment from monomer compared to the network, leading to a charge delocalization character due to the symmetry breaking. Our findings will open new avenues for implementing solvated hydrogen-bonded molecules in applications such as sensing and photocatalysis.

Original language	English
Pages (from-to)	9050-9057
Number of pages	8
Journal	Journal of Physical Chemistry B
Volume	127
Issue number	42
DOIs	https://doi.org/10.1021/acs.jpcb.3c05642
State	Published - 26 Oct 2023

Bibliographical note

Publisher Copyright:
© 2023 American Chemical Society.

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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Cite this

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title = "Charge Transfer Process of a Solvated Hydrogen-Bonded Organic Network",

abstract = "We show the first example of an organic linker (OL) terminated by carboxylic groups that can form a hydrogen-bonded network/polymer (HBN) in solution under controlled conditions in which the photogenerated charges can hop from a monomer OL to the hydrogen-bonded backbone of OLs, as probed by transient absorption (fs-TA). While fs-TA reveals a slow twisting process in the monomer form of the OL, the formation of a hydrogenbonded network in solution suppresses such process and favors instead a charge transfer (CT) state along the low-lying hydrogen-bonded backbone. Theoretical calculations show that such solvated HBN in a specific polar solvent is stabilized due to the huge change of the dipole moment from monomer compared to the network, leading to a charge delocalization character due to the symmetry breaking. Our findings will open new avenues for implementing solvated hydrogen-bonded molecules in applications such as sensing and photocatalysis.",

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doi = "10.1021/acs.jpcb.3c05642",

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AU - El-Zohry, Ahmed M.

AU - Sølling, Theis

AU - Hussien, A. E.

AU - Shekhah, Osama

AU - Shaikh, Aslam C.

AU - Eddaoudi, Mohamed

PY - 2023/10/26

Y1 - 2023/10/26

N2 - We show the first example of an organic linker (OL) terminated by carboxylic groups that can form a hydrogen-bonded network/polymer (HBN) in solution under controlled conditions in which the photogenerated charges can hop from a monomer OL to the hydrogen-bonded backbone of OLs, as probed by transient absorption (fs-TA). While fs-TA reveals a slow twisting process in the monomer form of the OL, the formation of a hydrogenbonded network in solution suppresses such process and favors instead a charge transfer (CT) state along the low-lying hydrogen-bonded backbone. Theoretical calculations show that such solvated HBN in a specific polar solvent is stabilized due to the huge change of the dipole moment from monomer compared to the network, leading to a charge delocalization character due to the symmetry breaking. Our findings will open new avenues for implementing solvated hydrogen-bonded molecules in applications such as sensing and photocatalysis.

AB - We show the first example of an organic linker (OL) terminated by carboxylic groups that can form a hydrogen-bonded network/polymer (HBN) in solution under controlled conditions in which the photogenerated charges can hop from a monomer OL to the hydrogen-bonded backbone of OLs, as probed by transient absorption (fs-TA). While fs-TA reveals a slow twisting process in the monomer form of the OL, the formation of a hydrogenbonded network in solution suppresses such process and favors instead a charge transfer (CT) state along the low-lying hydrogen-bonded backbone. Theoretical calculations show that such solvated HBN in a specific polar solvent is stabilized due to the huge change of the dipole moment from monomer compared to the network, leading to a charge delocalization character due to the symmetry breaking. Our findings will open new avenues for implementing solvated hydrogen-bonded molecules in applications such as sensing and photocatalysis.

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IS - 42

ER -

Charge Transfer Process of a Solvated Hydrogen-Bonded Organic Network

Abstract

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ASJC Scopus subject areas

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