674273
1-壬硫醇
99%
别名:
1-Nonyl mercaptan, 壬硫醇
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关于此项目
线性分子式:
CH3(CH2)8SH
化学文摘社编号:
分子量:
160.32
UNSPSC Code:
12352103
NACRES:
NA.23
PubChem Substance ID:
EC Number:
215-936-7
Beilstein/REAXYS Number:
1733631
MDL number:
InChI
1S/C9H20S/c1-2-3-4-5-6-7-8-9-10/h10H,2-9H2,1H3
SMILES string
CCCCCCCCCS
InChI key
ZVEZMVFBMOOHAT-UHFFFAOYSA-N
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
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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.
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.
signalword
Warning
hcodes
Hazard Classifications
Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3
target_organs
Respiratory system
存储类别
10 - Combustible liquids
wgk
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
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)
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)
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)
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)
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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