Relative conductances of alkaneselenolate and alkanethiolate monolayers on Au{111}

Jason D. Monnell; Joshua J. Stapleton; Shawn M. Dirk; William A. Reinerth; James M. Tour; David L. Allara; Paul S. Weiss

doi:10.1021/jp044186q

Relative conductances of alkaneselenolate and alkanethiolate monolayers on Au{111}

Jason D. Monnell, Joshua J. Stapleton, Shawn M. Dirk, William A. Reinerth, James M. Tour, David L. Allara, Paul S. Weiss

Materials Characterization Lab

Research output: Contribution to journal › Article › peer-review

84 Scopus citations

Abstract

The electronic properties of alkanethiolate [CH ₃(CH ₂) _nS-, n = 9 and 11] and alkaneselenolate [CH ₃(CH ₂) _n-Se-, n =9 and 11] self-assembled monolayers on Au{111} have been quantitatively compared. Simultaneously acquired apparent tunneling barrier height (ATBH) and scanning tunneling microscopy (STM) images reveal that alkanethiolate molecules have a lower barrier to tunneling, and therefore a higher conductance than alkaneselenolates of the same alkyl chain length. Molecular and contact conductance differences were elucidated by using observed STM topographic tunneling height differences between the analogous species. This apparent topographic difference combined with comparative ATBH data indicate that the observed decrease in conductance for alkaneselenolates compared to alkanethiolates originates exclusively from the Au-chalcogenide physical, chemical, and electronic contact.

Original language	English (US)
Pages (from-to)	20343-20349
Number of pages	7
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	43
DOIs	https://doi.org/10.1021/jp044186q
State	Published - Nov 3 2005

All Science Journal Classification (ASJC) codes

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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@article{913e6840659842a594946549a531d940,

title = "Relative conductances of alkaneselenolate and alkanethiolate monolayers on Au\{111\}",

abstract = "The electronic properties of alkanethiolate [CH 3(CH 2) nS-, n = 9 and 11] and alkaneselenolate [CH 3(CH 2) n-Se-, n =9 and 11] self-assembled monolayers on Au\{111\} have been quantitatively compared. Simultaneously acquired apparent tunneling barrier height (ATBH) and scanning tunneling microscopy (STM) images reveal that alkanethiolate molecules have a lower barrier to tunneling, and therefore a higher conductance than alkaneselenolates of the same alkyl chain length. Molecular and contact conductance differences were elucidated by using observed STM topographic tunneling height differences between the analogous species. This apparent topographic difference combined with comparative ATBH data indicate that the observed decrease in conductance for alkaneselenolates compared to alkanethiolates originates exclusively from the Au-chalcogenide physical, chemical, and electronic contact.",

author = "Monnell, \{Jason D.\} and Stapleton, \{Joshua J.\} and Dirk, \{Shawn M.\} and Reinerth, \{William A.\} and Tour, \{James M.\} and Allara, \{David L.\} and Weiss, \{Paul S.\}",

year = "2005",

month = nov,

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doi = "10.1021/jp044186q",

language = "English (US)",

volume = "109",

pages = "20343--20349",

journal = "Journal of Physical Chemistry B",

issn = "1520-6106",

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TY - JOUR

T1 - Relative conductances of alkaneselenolate and alkanethiolate monolayers on Au{111}

AU - Monnell, Jason D.

AU - Stapleton, Joshua J.

AU - Dirk, Shawn M.

AU - Reinerth, William A.

AU - Tour, James M.

AU - Allara, David L.

AU - Weiss, Paul S.

PY - 2005/11/3

Y1 - 2005/11/3

N2 - The electronic properties of alkanethiolate [CH 3(CH 2) nS-, n = 9 and 11] and alkaneselenolate [CH 3(CH 2) n-Se-, n =9 and 11] self-assembled monolayers on Au{111} have been quantitatively compared. Simultaneously acquired apparent tunneling barrier height (ATBH) and scanning tunneling microscopy (STM) images reveal that alkanethiolate molecules have a lower barrier to tunneling, and therefore a higher conductance than alkaneselenolates of the same alkyl chain length. Molecular and contact conductance differences were elucidated by using observed STM topographic tunneling height differences between the analogous species. This apparent topographic difference combined with comparative ATBH data indicate that the observed decrease in conductance for alkaneselenolates compared to alkanethiolates originates exclusively from the Au-chalcogenide physical, chemical, and electronic contact.

AB - The electronic properties of alkanethiolate [CH 3(CH 2) nS-, n = 9 and 11] and alkaneselenolate [CH 3(CH 2) n-Se-, n =9 and 11] self-assembled monolayers on Au{111} have been quantitatively compared. Simultaneously acquired apparent tunneling barrier height (ATBH) and scanning tunneling microscopy (STM) images reveal that alkanethiolate molecules have a lower barrier to tunneling, and therefore a higher conductance than alkaneselenolates of the same alkyl chain length. Molecular and contact conductance differences were elucidated by using observed STM topographic tunneling height differences between the analogous species. This apparent topographic difference combined with comparative ATBH data indicate that the observed decrease in conductance for alkaneselenolates compared to alkanethiolates originates exclusively from the Au-chalcogenide physical, chemical, and electronic contact.

UR - https://www.scopus.com/pages/publications/27744512099

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U2 - 10.1021/jp044186q

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M3 - Article

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AN - SCOPUS:27744512099

SN - 1520-6106

VL - 109

SP - 20343

EP - 20349

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 43

ER -

Relative conductances of alkaneselenolate and alkanethiolate monolayers on Au{111}

Abstract

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