Self-Assembly Determines Sign of Seebeck Coefficient in Tunneling Junctions Comprising Monolayers and Bilayers of Fullerenes

C Lungani Mthembu; Ryan C Chiechi

doi:10.1021/acs.nanolett.4c02783

Self-Assembly Determines Sign of Seebeck Coefficient in Tunneling Junctions Comprising Monolayers and Bilayers of Fullerenes

C Lungani Mthembu, Ryan C Chiechi

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Abstract

We measured the Seebeck coefficient for junctions comprising self-assembled monolayers and bilayers of the fullerene moiety PTEG-1 on Au using eutectic Ga-In in a controlled anhydrous atmosphere by varying the temperature gradient from -12 to 12 °C, observing a linear response in thermovoltage across the range. The sign of the coefficient was positive for monolayers of PTEG-1, (195 ± 8) μV K^-1 and negative for bilayers of PTEG-1, (-209 ± 14) μV K^-1, indicating a change from HOMO-mediated to LUMO-mediated charge-transport. Charge-transport is nonresonant tunneling for both monolayers and bilayers, but the former self-assembles with the fullerene cage at the chemisorbed interface while the latter includes a fullerene cage at the physisorbed interface, demonstrating that the physical position of the fullerene cage determines the energetic position of the frontier molecular orbitals of PTEG-1.

Original language	English
Article number	4c02783
Pages (from-to)	10921–10927
Number of pages	7
Journal	Nano Letters
Volume	24
Issue number	35
Early online date	26-Aug-2024
DOIs	https://doi.org/10.1021/acs.nanolett.4c02783
Publication status	Published - 4-Sept-2024

Keywords

Seebeck coefficient
Self-assembly
Molecular Electronics
Thermoelectric
EGaIn

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Self-Assembly Determines Sign of Seebeck Coefficient in Tunneling Junctions Comprising Monolayers and Bilayers of FullerenesProof, 3.82 MBLicence: Taverne

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@article{229d698c1d7147d18add69137cc5f160,

title = "Self-Assembly Determines Sign of Seebeck Coefficient in Tunneling Junctions Comprising Monolayers and Bilayers of Fullerenes",

abstract = "We measured the Seebeck coefficient for junctions comprising self-assembled monolayers and bilayers of the fullerene moiety PTEG-1 on Au using eutectic Ga-In in a controlled anhydrous atmosphere by varying the temperature gradient from -12 to 12 °C, observing a linear response in thermovoltage across the range. The sign of the coefficient was positive for monolayers of PTEG-1, (195 ± 8) μV K-1 and negative for bilayers of PTEG-1, (-209 ± 14) μV K-1, indicating a change from HOMO-mediated to LUMO-mediated charge-transport. Charge-transport is nonresonant tunneling for both monolayers and bilayers, but the former self-assembles with the fullerene cage at the chemisorbed interface while the latter includes a fullerene cage at the physisorbed interface, demonstrating that the physical position of the fullerene cage determines the energetic position of the frontier molecular orbitals of PTEG-1. ",

keywords = "Seebeck coefficient, Self-assembly, Molecular Electronics, Thermoelectric, EGaIn",

author = "Mthembu, {C Lungani} and Chiechi, {Ryan C}",

year = "2024",

month = sep,

day = "4",

doi = "10.1021/acs.nanolett.4c02783",

language = "English",

volume = "24",

pages = "10921–10927",

journal = "Nano Letters",

issn = "1530-6984",

publisher = "AMER CHEMICAL SOC",

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TY - JOUR

T1 - Self-Assembly Determines Sign of Seebeck Coefficient in Tunneling Junctions Comprising Monolayers and Bilayers of Fullerenes

AU - Mthembu, C Lungani

AU - Chiechi, Ryan C

PY - 2024/9/4

Y1 - 2024/9/4

N2 - We measured the Seebeck coefficient for junctions comprising self-assembled monolayers and bilayers of the fullerene moiety PTEG-1 on Au using eutectic Ga-In in a controlled anhydrous atmosphere by varying the temperature gradient from -12 to 12 °C, observing a linear response in thermovoltage across the range. The sign of the coefficient was positive for monolayers of PTEG-1, (195 ± 8) μV K-1 and negative for bilayers of PTEG-1, (-209 ± 14) μV K-1, indicating a change from HOMO-mediated to LUMO-mediated charge-transport. Charge-transport is nonresonant tunneling for both monolayers and bilayers, but the former self-assembles with the fullerene cage at the chemisorbed interface while the latter includes a fullerene cage at the physisorbed interface, demonstrating that the physical position of the fullerene cage determines the energetic position of the frontier molecular orbitals of PTEG-1.

AB - We measured the Seebeck coefficient for junctions comprising self-assembled monolayers and bilayers of the fullerene moiety PTEG-1 on Au using eutectic Ga-In in a controlled anhydrous atmosphere by varying the temperature gradient from -12 to 12 °C, observing a linear response in thermovoltage across the range. The sign of the coefficient was positive for monolayers of PTEG-1, (195 ± 8) μV K-1 and negative for bilayers of PTEG-1, (-209 ± 14) μV K-1, indicating a change from HOMO-mediated to LUMO-mediated charge-transport. Charge-transport is nonresonant tunneling for both monolayers and bilayers, but the former self-assembles with the fullerene cage at the chemisorbed interface while the latter includes a fullerene cage at the physisorbed interface, demonstrating that the physical position of the fullerene cage determines the energetic position of the frontier molecular orbitals of PTEG-1.

KW - Seebeck coefficient

KW - Self-assembly

KW - Molecular Electronics

KW - Thermoelectric

KW - EGaIn

U2 - 10.1021/acs.nanolett.4c02783

DO - 10.1021/acs.nanolett.4c02783

M3 - Article

C2 - 39186321

SN - 1530-6984

VL - 24

SP - 10921

EP - 10927

JO - Nano Letters

JF - Nano Letters

IS - 35

M1 - 4c02783

ER -

Self-Assembly Determines Sign of Seebeck Coefficient in Tunneling Junctions Comprising Monolayers and Bilayers of Fullerenes

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