Effect of Ring Strain on the Charge Transport of a Robust Norbornadiene-Quadricyclane-Based Molecular Photoswitch

Behabitu E.  Tebikachew; Haipeng B.  Li; Alessandro Pirrotta; Karl Börjesson; Gemma C. Solomon; Joshua  Hihath; Kasper Moth-Poulsen

doi:10.1021/acs.jpcc.7b00319

Effect of Ring Strain on the Charge Transport of a Robust Norbornadiene-Quadricyclane-Based Molecular Photoswitch

Behabitu E. Tebikachew, Haipeng B. Li, Alessandro Pirrotta, Karl Börjesson, Gemma C. Solomon, Joshua Hihath, Kasper Moth-Poulsen

Department of Chemistry

25 Citations (Scopus)

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Abstract

Integrating functional molecules into single-molecule devices is a key step toward the realization of future computing machines based on the smallest possible components. In this context, photoswitching molecules that can make a transition between high and low conductivity in response to light are attractive candidates. Here we present the synthesis and conductance properties of a new type of robust molecular photothermal switch based on the norbornadiene (NB)-quadricyclane (QC) system. The transport through the molecule in the ON state is dominated by a pathway through the π-conjugated system, which is no longer available when the system is switched to the OFF state. Interestingly, in the OFF state we find that the same pathway contributes only 12% to the transport properties. We attribute this observation to the strained tetrahedral geometry of the QC. These results challenge the prevailing assumption that current will simply flow through the shortest through-bond path in a molecule.

Original language	English
Journal	The Journal of Physical Chemistry Part C
Volume	121
Issue number	13
Pages (from-to)	7094-7100
Number of pages	7
ISSN	1932-7447
DOIs	https://doi.org/10.1021/acs.jpcc.7b00319
Publication status	Published - 6 Apr 2017

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Effect of Ring Strain on the Charge Transport of a RobustFinal published version, 2.32 MBLicence: CC BY

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title = "Effect of Ring Strain on the Charge Transport of a Robust Norbornadiene-Quadricyclane-Based Molecular Photoswitch",

abstract = "Integrating functional molecules into single-molecule devices is a key step toward the realization of future computing machines based on the smallest possible components. In this context, photoswitching molecules that can make a transition between high and low conductivity in response to light are attractive candidates. Here we present the synthesis and conductance properties of a new type of robust molecular photothermal switch based on the norbornadiene (NB)-quadricyclane (QC) system. The transport through the molecule in the ON state is dominated by a pathway through the π-conjugated system, which is no longer available when the system is switched to the OFF state. Interestingly, in the OFF state we find that the same pathway contributes only 12% to the transport properties. We attribute this observation to the strained tetrahedral geometry of the QC. These results challenge the prevailing assumption that current will simply flow through the shortest through-bond path in a molecule.",

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AU - Tebikachew, Behabitu E.

AU - Li, Haipeng B.

AU - Pirrotta, Alessandro

AU - Börjesson, Karl

AU - Solomon, Gemma C.

AU - Hihath, Joshua

AU - Moth-Poulsen, Kasper

PY - 2017/4/6

Y1 - 2017/4/6

N2 - Integrating functional molecules into single-molecule devices is a key step toward the realization of future computing machines based on the smallest possible components. In this context, photoswitching molecules that can make a transition between high and low conductivity in response to light are attractive candidates. Here we present the synthesis and conductance properties of a new type of robust molecular photothermal switch based on the norbornadiene (NB)-quadricyclane (QC) system. The transport through the molecule in the ON state is dominated by a pathway through the π-conjugated system, which is no longer available when the system is switched to the OFF state. Interestingly, in the OFF state we find that the same pathway contributes only 12% to the transport properties. We attribute this observation to the strained tetrahedral geometry of the QC. These results challenge the prevailing assumption that current will simply flow through the shortest through-bond path in a molecule.

AB - Integrating functional molecules into single-molecule devices is a key step toward the realization of future computing machines based on the smallest possible components. In this context, photoswitching molecules that can make a transition between high and low conductivity in response to light are attractive candidates. Here we present the synthesis and conductance properties of a new type of robust molecular photothermal switch based on the norbornadiene (NB)-quadricyclane (QC) system. The transport through the molecule in the ON state is dominated by a pathway through the π-conjugated system, which is no longer available when the system is switched to the OFF state. Interestingly, in the OFF state we find that the same pathway contributes only 12% to the transport properties. We attribute this observation to the strained tetrahedral geometry of the QC. These results challenge the prevailing assumption that current will simply flow through the shortest through-bond path in a molecule.

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DO - 10.1021/acs.jpcc.7b00319

M3 - Journal article

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JF - The Journal of Physical Chemistry Part C

IS - 13

ER -

Effect of Ring Strain on the Charge Transport of a Robust Norbornadiene-Quadricyclane-Based Molecular Photoswitch

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