Charge Transport through Ferrocene 1,1′-Diamine Single-Molecule Junctions

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OriginalspracheEnglisch
Seiten (von - bis)4849-4856
Seitenumfang8
FachzeitschriftSmall
Jahrgang12
Ausgabenummer35
PublikationsstatusVeröffentlicht - 19 Juli 2016

Abstract

The charge transport through ferrocene 1,1′-diamine (FDA) molecules between gold electrodes is investigated using the mechanically controllable break junction technique combined with a theoretical framework of density functional theory simulations to understand the physics of these molecular junctions. The characteristic conductances of the molecule are measured at low bias as well as current–voltage (IV) characteristics. By fitting the IV characteristics to the single-level model, the values for the position of the molecular level, mainly responsible for the transport, and its coupling to the leads, are obtained. The influence of the binding sites, molecular conformation, and electrode distance are systematically studied from a theoretical perspective. While a strong dependence of conductance on the adsorption geometry is found, the decrease of conductance as a function of electrode distance arises mainly from a decrease of coupling strength of the molecular electronic orbitals through a reduced overlap and, to a lesser extent, from a shift of their alignment with respect to the Fermi energy.

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Charge Transport through Ferrocene 1,1′-Diamine Single-Molecule Junctions. / Kanthasamy, Karthiga; Ring, Markus; Nettelroth, Dennes et al.
in: Small, Jahrgang 12, Nr. 35, 19.07.2016, S. 4849-4856.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Kanthasamy, K, Ring, M, Nettelroth, D, Tegenkamp, C, Butenschön, H, Pauly, F & Pfnür, H 2016, 'Charge Transport through Ferrocene 1,1′-Diamine Single-Molecule Junctions', Small, Jg. 12, Nr. 35, S. 4849-4856. https://doi.org/10.1002/smll.201601051
Kanthasamy, K., Ring, M., Nettelroth, D., Tegenkamp, C., Butenschön, H., Pauly, F., & Pfnür, H. (2016). Charge Transport through Ferrocene 1,1′-Diamine Single-Molecule Junctions. Small, 12(35), 4849-4856. https://doi.org/10.1002/smll.201601051
Kanthasamy K, Ring M, Nettelroth D, Tegenkamp C, Butenschön H, Pauly F et al. Charge Transport through Ferrocene 1,1′-Diamine Single-Molecule Junctions. Small. 2016 Jul 19;12(35):4849-4856. doi: 10.1002/smll.201601051
Kanthasamy, Karthiga ; Ring, Markus ; Nettelroth, Dennes et al. / Charge Transport through Ferrocene 1,1′-Diamine Single-Molecule Junctions. in: Small. 2016 ; Jahrgang 12, Nr. 35. S. 4849-4856.
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abstract = "The charge transport through ferrocene 1,1′-diamine (FDA) molecules between gold electrodes is investigated using the mechanically controllable break junction technique combined with a theoretical framework of density functional theory simulations to understand the physics of these molecular junctions. The characteristic conductances of the molecule are measured at low bias as well as current–voltage (IV) characteristics. By fitting the IV characteristics to the single-level model, the values for the position of the molecular level, mainly responsible for the transport, and its coupling to the leads, are obtained. The influence of the binding sites, molecular conformation, and electrode distance are systematically studied from a theoretical perspective. While a strong dependence of conductance on the adsorption geometry is found, the decrease of conductance as a function of electrode distance arises mainly from a decrease of coupling strength of the molecular electronic orbitals through a reduced overlap and, to a lesser extent, from a shift of their alignment with respect to the Fermi energy.",
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AU - Kanthasamy, Karthiga

AU - Ring, Markus

AU - Nettelroth, Dennes

AU - Tegenkamp, Christoph

AU - Butenschön, Holger

AU - Pauly, Fabian

AU - Pfnür, Herbert

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N2 - The charge transport through ferrocene 1,1′-diamine (FDA) molecules between gold electrodes is investigated using the mechanically controllable break junction technique combined with a theoretical framework of density functional theory simulations to understand the physics of these molecular junctions. The characteristic conductances of the molecule are measured at low bias as well as current–voltage (IV) characteristics. By fitting the IV characteristics to the single-level model, the values for the position of the molecular level, mainly responsible for the transport, and its coupling to the leads, are obtained. The influence of the binding sites, molecular conformation, and electrode distance are systematically studied from a theoretical perspective. While a strong dependence of conductance on the adsorption geometry is found, the decrease of conductance as a function of electrode distance arises mainly from a decrease of coupling strength of the molecular electronic orbitals through a reduced overlap and, to a lesser extent, from a shift of their alignment with respect to the Fermi energy.

AB - The charge transport through ferrocene 1,1′-diamine (FDA) molecules between gold electrodes is investigated using the mechanically controllable break junction technique combined with a theoretical framework of density functional theory simulations to understand the physics of these molecular junctions. The characteristic conductances of the molecule are measured at low bias as well as current–voltage (IV) characteristics. By fitting the IV characteristics to the single-level model, the values for the position of the molecular level, mainly responsible for the transport, and its coupling to the leads, are obtained. The influence of the binding sites, molecular conformation, and electrode distance are systematically studied from a theoretical perspective. While a strong dependence of conductance on the adsorption geometry is found, the decrease of conductance as a function of electrode distance arises mainly from a decrease of coupling strength of the molecular electronic orbitals through a reduced overlap and, to a lesser extent, from a shift of their alignment with respect to the Fermi energy.

KW - charge transport

KW - density functional theory

KW - ferrocene diamine

KW - molecular break junctions

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