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2011 | OriginalPaper | Chapter

3. Free Energy Barrier for Molecular Motions in Bistable [2]Rotaxane Molecular Electronic Devices

Author : Hyungjun Kim

Published in: Multiscale and Multiphysics Computational Frameworks for Nano- and Bio-Systems

Publisher: Springer New York

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Abstract

Donor-acceptor binding of the π-electron-poor cyclophane cyclobis (paraquat-p-phenylene) (CBPQT⁴⁺) with the π-electron-rich tetrathiafulvalene (TTF) and 1,5-dioxynaphthalene (DNP) stations provides the basis for electrochemically switchable, bistable [2]rotaxanes, which have been incorporated and operated within solid state devices to form ultradense memory circuits [1, 2] and nanoelectromechanical systems. The rate of CBPQT⁴⁺ shuttling at each oxidation state of the [2]rotaxane dictates critical write-and-retention time parameters within the devices, which can be tuned through chemical synthesis. To validate how well computational chemistry methods can estimate these rates for use in designing new devices, we used molecular dynamics simulations to calculate the free energy barrier for the shuttling of the CBPQT⁴⁺ ring between the TTF and the DNP. The approach used here was to calculate the potential of mean force along the switching pathway, from which we calculated free energy barriers. These calculations find a turn-on time after the rotaxane is doubly oxidized of \(\sim\!\!10^{-7}\) s (suggesting that the much longer experimental turn-on time is determined by the time scale of oxidization). The return barrier from the DNP to the TTF leads to a predicted lifetime of 2.1 s, which is compatible with experiments.

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Title: Free Energy Barrier for Molecular Motions in Bistable [2]Rotaxane Molecular Electronic Devices
Author: Hyungjun Kim
Publisher: Springer New York
Book: Multiscale and Multiphysics Computational Frameworks for Nano- and Bio-Systems
Print ISBN: 978-1-4419-7600-0

Electronic ISBN: 978-1-4419-7601-7

Copyright Year: 2011
DOI: https://doi.org/10.1007/978-1-4419-7601-7_3

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