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Merck

674273

Sigma-Aldrich

1-Nonanethiol

99%

Sinónimos:

1-Nonyl mercaptan, Mercaptan C9

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About This Item

Fórmula lineal:
CH3(CH2)8SH
Número de CAS:
Peso molecular:
160.32
Beilstein/REAXYS Number:
1733631
EC Number:
MDL number:
UNSPSC Code:
12352103
PubChem Substance ID:
NACRES:
NA.23

assay

99%

refractive index

n20/D 1.455 (lit.)

bp

220 °C (lit.)

density

0.842 g/mL at 25 °C (lit.)

storage temp.

2-8°C

SMILES string

CCCCCCCCCS

InChI

1S/C9H20S/c1-2-3-4-5-6-7-8-9-10/h10H,2-9H2,1H3

InChI key

ZVEZMVFBMOOHAT-UHFFFAOYSA-N

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General description

1-Nonanethiol is an alkanethiol, a stabilizer that forms a self-assembled monolayer (SAM) on a variety of substrates. It is used as a thiol based protective coating.

Application

1-Nonanethiol is mainly used to form self-organized monolayers on gold, mercury, silver and platinum surfaces. These monolayers functionalize the surface atoms and improve the surface property of the composite.

pictograms

Exclamation mark

signalword

Warning

Hazard Classifications

Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3

target_organs

Respiratory system

Storage Class

10 - Combustible liquids

wgk_germany

WGK 3

flash_point_f

174.2 °F - closed cup

flash_point_c

79 °C - closed cup

ppe

Eyeshields, Gloves, type ABEK (EN14387) respirator filter


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Through-bond and chain-to-chain coupling. Two pathways in electron tunneling through liquid alkanethiol monolayers on mercury electrodes.
Slowinski K, et al.
Journal of the American Chemical Society, 119(49), 11910-11919 (1997)
Pressure/temperature phase diagrams and superlattices of organically functionalized metal nanocrystal monolayers: the influence of particle size, size distribution, and surface passivant.
Heath JR, et al.
The Journal of Physical Chemistry B, 101(2), 189-197 (1997)
The stability of self-organized 1-nonanethiol-capped gold nanoparticle monolayer.
Jiang P, et al.
Journal of Physics D: Applied Physics, 34(15), 2255-2255 (2001)
Nanoscale reversible molecular extraction from a self-assembled monolayer on gold (111) by a scanning tunneling microscope.
Mizutani W, et al.
Langmuir, 14(25), 7197-7202 (1998)
Zuoti Xie et al.
Journal of the American Chemical Society, 141(1), 497-504 (2018-12-12)
Developing a clearer understanding of electron tunneling through molecules is a central challenge in molecular electronics. Here we demonstrate the use of mechanical stretching to distinguish orbital pathways that facilitate tunneling in molecular junctions. Our experiments employ junctions based on

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