74740
1-十八烯
≥95.0% (GC)
别名:
α-十八烯, AlphaPlus 1-十八烯, Neodene 18
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关于此项目
线性分子式:
CH3(CH2)15CH=CH2
化学文摘社编号:
分子量:
252.48
UNSPSC Code:
12352100
NACRES:
NA.22
PubChem Substance ID:
EC Number:
204-012-9
Beilstein/REAXYS Number:
1761067
MDL number:
产品名称
1-十八烯, ≥95.0% (GC)
InChI key
CCCMONHAUSKTEQ-UHFFFAOYSA-N
InChI
1S/C18H36/c1-3-5-7-9-11-13-15-17-18-16-14-12-10-8-6-4-2/h3H,1,4-18H2,2H3
SMILES string
CCCCCCCCCCCCCCCCC=C
vapor density
0.71 (vs air)
assay
≥95.0% (GC)
form
liquid
autoignition temp.
482 °F
refractive index
n20/D 1.444 (lit.)
n20/D 1.445
bp
314.4 +/- 5.0 °C/760 mmHg (lit.)
179 °C/15 mmHg (lit.)
314.4 °C±5.0 °C/760 mmHg (lit.)
mp
14-16 °C (lit.)
density
0.789 g/mL at 25 °C (lit.)
functional group
allyl
Quality Level
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Application
1-十八烯可用于制备单分散CuPd合金纳米颗粒(NP)。它可以用于磁铁矿纳米晶体的合成。
General description
使用茂金属进行桥连的乙烯和1-十八烯的共聚合已有报道。通过自由基反应将单层1-单十八烯连接至氢封端的(111)硅表面上。
signalword
Danger
hcodes
pcodes
Hazard Classifications
Asp. Tox. 1
supp_hazards
存储类别
10 - Combustible liquids
wgk
WGK 3
flash_point_f
300.2 °F - closed cup
flash_point_c
149.00 °C - closed cup
ppe
Eyeshields, Gloves
The effect of nanocrystalline magnetite size on arsenic removal.
Mayo J T, et al.
Science and Technology of Advanced Materials, 8(1), 71-75 (2007)
Synthesis and characterization of copolymers of ethylene and 1-octadecene using the rac-Et (Ind) 2ZrCl2/MAO catalyst system.
Quijada R, et al.
Macromol. Chem. Rapid Commun., 200(6), 1306-1310 (1999)
1-octadecene monolayers on Si (111) hydrogen-terminated surfaces: Effect of substrate doping.
Miramond C and Vuillaume D.
Journal of Applied Physics, 96(3), 1529-1536 (2004)
Sümeyra Diyarbakir et al.
ACS applied materials & interfaces, 7(5), 3199-3206 (2015-01-17)
Monodisperse CuPd alloy nanoparticles (NPs) were prepared by using a typical high-temperature organic solution phase protocol comprising the coreduction of copper(II) acetylacetonate and palladium(II) acetylacetonate by morpholine-borane complex in oleylamine and 1-octadecene solution at 80 °C. The presented synthesis protocol
Oleksandr Voznyy et al.
ACS nano, 13(10), 11122-11128 (2019-09-21)
Colloidal quantum dots (CQDs) allow broad tuning of the bandgap across the visible and near-infrared spectral regions. Recent advances in applying CQDs in light sensing, photovoltaics, and light emission have heightened interest in achieving further synthetic improvements. In particular, improving
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