Bias-Driven Conductance Increase with Length in Porphyrin Tapes

Edmund Leary; Bart Limburg; Asma Alanazy; Sara Sangtarash; Iain Grace; Katsutoshi Swada; Louisa J Esdaile; Mohammed Noori; M Teresa González; Gabino Rubio-Bollinger; Hatef Sadeghi; Andrew Hodgson; Nicolás Agrait; Simon J Higgins; Colin J Lambert; Harry L Anderson; Richard J Nichols

doi:10.1021/jacs.8b06338

Bias-Driven Conductance Increase with Length in Porphyrin Tapes

Edmund Leary, Bart Limburg, Asma Alanazy, Sara Sangtarash, Iain Grace, Katsutoshi Swada, Louisa J Esdaile, Mohammed Noori, M Teresa González, Gabino Rubio-Bollinger, Hatef Sadeghi, Andrew Hodgson, Nicolás Agrait, Simon J Higgins, Colin J Lambert, Harry L Anderson, Richard J Nichols

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Abstract

A key goal in molecular electronics has been to find molecules that facilitate efficient charge transport over long distances. Normally, molecular wires become less conductive with increasing length. Here, we report a series of fused porphyrin oligomers for which the conductance increases substantially with length by >10-fold at a bias of 0.7 V. This exceptional behavior can be attributed to the rapid decrease of the HOMO-LUMO gap with the length of fused porphyrins. In contrast, for butadiyne-linked porphyrin oligomers with moderate inter-ring coupling, a normal conductance decrease with length is found for all bias voltages explored (±1 V), although the attenuation factor (β) decreases from ca. 2 nm^-1 at low bias to <1 nm^-1 at 0.9 V, highlighting that β is not an intrinsic molecular property. Further theoretical analysis using density functional theory underlines the role of intersite coupling and indicates that this large increase in conductance with length at increasing voltages can be generalized to other molecular oligomers.

Original language	English
Pages (from-to)	12877-12883
Number of pages	7
Journal	Journal of the American Chemical Society
Volume	140
Issue number	40
Early online date	12 Sept 2018
DOIs	https://doi.org/10.1021/jacs.8b06338
Publication status	Published - 10 Oct 2018
Externally published	Yes

Keywords

Bias
Porphyrin oligomers
Length
Charge transport
Molecular electronics

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10.1021/jacs.8b06338Licence: CC BY

Final published versionFinal published version, 3.68 MBLicence: CC BY

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Leary, E., Limburg, B., Alanazy, A., Sangtarash, S., Grace, I., Swada, K., Esdaile, L. J., Noori, M., González, M. T., Rubio-Bollinger, G., Sadeghi, H., Hodgson, A., Agrait, N., Higgins, S. J., Lambert, C. J., Anderson, H. L., & Nichols, R. J. (2018). Bias-Driven Conductance Increase with Length in Porphyrin Tapes. Journal of the American Chemical Society, 140(40), 12877-12883. https://doi.org/10.1021/jacs.8b06338

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title = "Bias-Driven Conductance Increase with Length in Porphyrin Tapes",

abstract = "A key goal in molecular electronics has been to find molecules that facilitate efficient charge transport over long distances. Normally, molecular wires become less conductive with increasing length. Here, we report a series of fused porphyrin oligomers for which the conductance increases substantially with length by >10-fold at a bias of 0.7 V. This exceptional behavior can be attributed to the rapid decrease of the HOMO-LUMO gap with the length of fused porphyrins. In contrast, for butadiyne-linked porphyrin oligomers with moderate inter-ring coupling, a normal conductance decrease with length is found for all bias voltages explored (±1 V), although the attenuation factor (β) decreases from ca. 2 nm-1 at low bias to <1 nm-1 at 0.9 V, highlighting that β is not an intrinsic molecular property. Further theoretical analysis using density functional theory underlines the role of intersite coupling and indicates that this large increase in conductance with length at increasing voltages can be generalized to other molecular oligomers.",

keywords = "Bias, Porphyrin oligomers, Length, Charge transport, Molecular electronics",

author = "Edmund Leary and Bart Limburg and Asma Alanazy and Sara Sangtarash and Iain Grace and Katsutoshi Swada and Esdaile, {Louisa J} and Mohammed Noori and Gonz{\'a}lez, {M Teresa} and Gabino Rubio-Bollinger and Hatef Sadeghi and Andrew Hodgson and Nicol{\'a}s Agrait and Higgins, {Simon J} and Lambert, {Colin J} and Anderson, {Harry L} and Nichols, {Richard J}",

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Leary, E, Limburg, B, Alanazy, A, Sangtarash, S, Grace, I, Swada, K, Esdaile, LJ, Noori, M, González, MT, Rubio-Bollinger, G, Sadeghi, H, Hodgson, A, Agrait, N, Higgins, SJ, Lambert, CJ, Anderson, HL & Nichols, RJ 2018, 'Bias-Driven Conductance Increase with Length in Porphyrin Tapes', Journal of the American Chemical Society, vol. 140, no. 40, pp. 12877-12883. https://doi.org/10.1021/jacs.8b06338

TY - JOUR

T1 - Bias-Driven Conductance Increase with Length in Porphyrin Tapes

AU - Leary, Edmund

AU - Limburg, Bart

AU - Alanazy, Asma

AU - Sangtarash, Sara

AU - Grace, Iain

AU - Swada, Katsutoshi

AU - Esdaile, Louisa J

AU - Noori, Mohammed

AU - González, M Teresa

AU - Rubio-Bollinger, Gabino

AU - Sadeghi, Hatef

AU - Hodgson, Andrew

AU - Agrait, Nicolás

AU - Higgins, Simon J

AU - Lambert, Colin J

AU - Anderson, Harry L

AU - Nichols, Richard J

PY - 2018/10/10

Y1 - 2018/10/10

N2 - A key goal in molecular electronics has been to find molecules that facilitate efficient charge transport over long distances. Normally, molecular wires become less conductive with increasing length. Here, we report a series of fused porphyrin oligomers for which the conductance increases substantially with length by >10-fold at a bias of 0.7 V. This exceptional behavior can be attributed to the rapid decrease of the HOMO-LUMO gap with the length of fused porphyrins. In contrast, for butadiyne-linked porphyrin oligomers with moderate inter-ring coupling, a normal conductance decrease with length is found for all bias voltages explored (±1 V), although the attenuation factor (β) decreases from ca. 2 nm-1 at low bias to <1 nm-1 at 0.9 V, highlighting that β is not an intrinsic molecular property. Further theoretical analysis using density functional theory underlines the role of intersite coupling and indicates that this large increase in conductance with length at increasing voltages can be generalized to other molecular oligomers.

AB - A key goal in molecular electronics has been to find molecules that facilitate efficient charge transport over long distances. Normally, molecular wires become less conductive with increasing length. Here, we report a series of fused porphyrin oligomers for which the conductance increases substantially with length by >10-fold at a bias of 0.7 V. This exceptional behavior can be attributed to the rapid decrease of the HOMO-LUMO gap with the length of fused porphyrins. In contrast, for butadiyne-linked porphyrin oligomers with moderate inter-ring coupling, a normal conductance decrease with length is found for all bias voltages explored (±1 V), although the attenuation factor (β) decreases from ca. 2 nm-1 at low bias to <1 nm-1 at 0.9 V, highlighting that β is not an intrinsic molecular property. Further theoretical analysis using density functional theory underlines the role of intersite coupling and indicates that this large increase in conductance with length at increasing voltages can be generalized to other molecular oligomers.

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KW - Porphyrin oligomers

KW - Length

KW - Charge transport

KW - Molecular electronics

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SN - 0002-7863

VL - 140

SP - 12877

EP - 12883

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 40

ER -

Bias-Driven Conductance Increase with Length in Porphyrin Tapes

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