Effect of Ring Strain on the Charge Transport of a Robust Norbornadiene-Quadricyclane-Based Molecular Photoswitch
Artikel i vetenskaplig tidskrift, 2017

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 pi-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.

Quantum Interference

Electronic Device

Switches

Photoisomerization

Diarylethene

Junctions

Length

Thermoelectric Properties

Conductance

Conductivity

Författare

Behabitu Ergette Tebikachew

Kemi och kemiteknik, Tillämpad kemi, Polymerteknologi

H. P. B. Li

UC Davis

A. Pirrotta

Kobenhavns Universitet

Karl Börjesson

Göteborgs universitet

G. C. Solomon

Kobenhavns Universitet

J. Hihath

UC Davis

Kasper Moth-Poulsen

Kemi och kemiteknik, Tillämpad kemi, Polymerteknologi

Journal of Physical Chemistry C

1932-7447 (ISSN) 1932-7455 (eISSN)

Vol. 121 7094-7100

Ämneskategorier

Polymerteknologi

DOI

10.1021/acs.jpcc.7b00319