Nanografting versus Solution Self-Assembly of α,ω-Alkanedithiols on Au(111) Investigated by AFM

The solution self-assembly of α,ω-alkanedithiols onto Au(111) was investigated using atomic force microscopy (AFM). A heterogeneous surface morphology is apparent for 1,8-octanedithiol and for 1,9-nonanedithiol self-assembled monolayers (SAMs) prepared by solution immersion as compared to methyl-ter...

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Veröffentlicht in:	Langmuir 2008-10, Vol.24 (20), p.11661-11668
Hauptverfasser:	Yu, Jing-Jiang, Ngunjiri, Johnpeter N, Kelley, Algernon T, Garno, Jayne C
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Chemistry Chemistry, Physical - methods Colloidal state and disperse state Exact sciences and technology General and physical chemistry Image Processing, Computer-Assisted Interfaces: Adsorption, Reactions, Films, Forces Materials Testing Metal Nanoparticles - chemistry Microscopy, Atomic Force - methods Nanoparticles - chemistry Nanotechnology - methods Solutions - chemistry Sulfhydryl Compounds - chemistry Surface physical chemistry Surface Properties
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container_issue	20
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creator	Yu, Jing-Jiang Ngunjiri, Johnpeter N Kelley, Algernon T Garno, Jayne C
description	The solution self-assembly of α,ω-alkanedithiols onto Au(111) was investigated using atomic force microscopy (AFM). A heterogeneous surface morphology is apparent for 1,8-octanedithiol and for 1,9-nonanedithiol self-assembled monolayers (SAMs) prepared by solution immersion as compared to methyl-terminated n-alkanethiols. Local views from AFM images reveal a layer of mixed molecular orientations for α,ω-alkanedithiols, which evidence surface structures with heights corresponding to both lying-down and standing-up orientations. For dithiol SAMs prepared by solution self-assembly, the majority of α,ω-alkanedithiol molecules chemisorb with both thiol end groups bound to the Au(111) surface with the backbone of the alkane chain aligned parallel to the surface. However, AFM images disclose that there are also islands of standing molecules scattered throughout the surface. To measure the thickness of α,ω-alkanedithiol SAMs with angstrom sensitivity, methyl-terminated n-alkanethiols with known dimensions were used as molecular rulers. Under conditions of spatially constrained self-assembly, nanopatterns of α,ω-alkanedithiols written by nanografting formed monolayers with heights corresponding to an upright configuration.
doi_str_mv	10.1021/la802235c
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A heterogeneous surface morphology is apparent for 1,8-octanedithiol and for 1,9-nonanedithiol self-assembled monolayers (SAMs) prepared by solution immersion as compared to methyl-terminated n-alkanethiols. Local views from AFM images reveal a layer of mixed molecular orientations for α,ω-alkanedithiols, which evidence surface structures with heights corresponding to both lying-down and standing-up orientations. For dithiol SAMs prepared by solution self-assembly, the majority of α,ω-alkanedithiol molecules chemisorb with both thiol end groups bound to the Au(111) surface with the backbone of the alkane chain aligned parallel to the surface. However, AFM images disclose that there are also islands of standing molecules scattered throughout the surface. To measure the thickness of α,ω-alkanedithiol SAMs with angstrom sensitivity, methyl-terminated n-alkanethiols with known dimensions were used as molecular rulers. 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A heterogeneous surface morphology is apparent for 1,8-octanedithiol and for 1,9-nonanedithiol self-assembled monolayers (SAMs) prepared by solution immersion as compared to methyl-terminated n-alkanethiols. Local views from AFM images reveal a layer of mixed molecular orientations for α,ω-alkanedithiols, which evidence surface structures with heights corresponding to both lying-down and standing-up orientations. For dithiol SAMs prepared by solution self-assembly, the majority of α,ω-alkanedithiol molecules chemisorb with both thiol end groups bound to the Au(111) surface with the backbone of the alkane chain aligned parallel to the surface. However, AFM images disclose that there are also islands of standing molecules scattered throughout the surface. To measure the thickness of α,ω-alkanedithiol SAMs with angstrom sensitivity, methyl-terminated n-alkanethiols with known dimensions were used as molecular rulers. 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A heterogeneous surface morphology is apparent for 1,8-octanedithiol and for 1,9-nonanedithiol self-assembled monolayers (SAMs) prepared by solution immersion as compared to methyl-terminated n-alkanethiols. Local views from AFM images reveal a layer of mixed molecular orientations for α,ω-alkanedithiols, which evidence surface structures with heights corresponding to both lying-down and standing-up orientations. For dithiol SAMs prepared by solution self-assembly, the majority of α,ω-alkanedithiol molecules chemisorb with both thiol end groups bound to the Au(111) surface with the backbone of the alkane chain aligned parallel to the surface. However, AFM images disclose that there are also islands of standing molecules scattered throughout the surface. To measure the thickness of α,ω-alkanedithiol SAMs with angstrom sensitivity, methyl-terminated n-alkanethiols with known dimensions were used as molecular rulers. Under conditions of spatially constrained self-assembly, nanopatterns of α,ω-alkanedithiols written by nanografting formed monolayers with heights corresponding to an upright configuration.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>18823084</pmid><doi>10.1021/la802235c</doi><tpages>8</tpages></addata></record>
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subjects	Adsorption Chemistry Chemistry, Physical - methods Colloidal state and disperse state Exact sciences and technology General and physical chemistry Image Processing, Computer-Assisted Interfaces: Adsorption, Reactions, Films, Forces Materials Testing Metal Nanoparticles - chemistry Microscopy, Atomic Force - methods Nanoparticles - chemistry Nanotechnology - methods Solutions - chemistry Sulfhydryl Compounds - chemistry Surface physical chemistry Surface Properties
title	Nanografting versus Solution Self-Assembly of α,ω-Alkanedithiols on Au(111) Investigated by AFM
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