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Merck
CN
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安全信息

155810

Sigma-Aldrich

2-甲基四氢呋喃

greener alternative

BioRenewable, ReagentPlus®, ≥99.5%, contains 150-400 ppm BHT as stabilizer

别名:

2-MeTHF, 2-甲基四氢呋喃, 四氢-2甲基呋喃

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About This Item

经验公式(希尔记法):
C5H10O
CAS号:
96-47-9
分子量:
86.13
Beilstein:
102448
EC 号:
202-507-4
MDL编号:
MFCD00005367
UNSPSC代码:
12352103
PubChem化学物质编号:
329750937
NACRES:
NA.21

质量水平

100

产品线

ReagentPlus®

检测方案

≥99.5%

形式

liquid

包含

150-400 ppm BHT as stabilizer

expl. lim.

0.34-6.3 %

环保替代产品特性

Safer Solvents and Auxiliaries
Use of Renewable Feedstocks
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

杂质

≤1.0% water (coulometr.)
≤100 ppm peroxide (as H2O2)

折射率

n20/D 1.406 (lit.)

bp

78-80 °C (lit.)

mp

-136 °C

密度

0.86 g/mL at 25 °C (lit.)

环保替代产品分类

Aligned, , Aligned

SMILES字符串

CC1CCCO1

InChI

1S/C5H10O/c1-5-3-2-4-6-5/h5H,2-4H2,1H3

InChI key

JWUJQDFVADABEY-UHFFFAOYSA-N

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一般描述

我们致力于为您带来更加绿色的替代产品,这些产品遵守一项或多项绿色化学12项原则。该产品是可生物再生的,符合“更安全的溶剂和助剂”以及“使用可再生原料”的原则。 点击此处  以获取更多信息。

2-甲基四氢呋喃(2-MTHF)作为2-甲基取代的四氢呋喃来源于生物质,在大多数工业应用中是四氢呋喃 (THF)、1,4-二恶烷(二恶烷)和二氯甲烷 (DCM) 的环保型溶剂替代品。其极性和路易斯碱强度介于四氢呋喃(THF)和乙醚之间。它是有机合成中的潜在绿色溶剂替代品,显示出对锂还原的抵抗力,因为成为锂电池中电解质的潜在候选物。

应用

2-甲基四氢呋喃可用作以下情况的替代溶剂:
有机金属反应中的四氢呋喃
  • Grignard反应
  • Reformantsky反应
  • 锂化
  • 氢化物还原
  • 金属催化偶联(Heck、Stile、Suzuki)




用于双相反应的二氯甲烷:
  • 烷化
  • 酰胺化
  • 亲核取代

特点和优势

  • 由可再生资源制造 -来源于农业副产品的糠醛
  • 高沸点
  • 清洁的有机-水相分离
  • 减少回收能源

其他说明

浏览其他生物可再生或绿色溶剂

法律信息

ReagentPlus is a registered trademark of Merck KGaA, Darmstadt, Germany

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警示用语:

Danger

危险分类

Acute Tox. 4 Oral - Eye Dam. 1 - Flam. Liq. 2 - Skin Irrit. 2

补充剂危害

EUH019

WGK

WGK 2

法规信息

危险化学品

分析证书(COA)

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  1. What is a BioRenewable solvent?

    BioRenewable solvents are sourced from renewable and sustainable biobased materials, such as soy/palm oil, wood waste, hay or corn byproducts, etc. It is important to highlight that our BioRenewable products do not compete with food production.

  2. Why should you use BioRenewable solvents?

    You will contribute to create a sustainable world, significantly lowering environmental impact. Biorenewable solvents also decrease petroleum sources dependency, have higher recovery rates, and/or are safer for handling and disposal.

  3. Do BioRenewable solvents have a similar quality to petroleum-based solvents?

    BioRenewable solvents can have the same or higher purity level compared to traditional solvents. These solvents are free of the many byproducts of petroleum manufacturing, such as benzene, aldehydes, and ethers.

Mari Merce Cascant et al.
Analytical and bioanalytical chemistry, 409(14), 3527-3539 (2017-04-09)
There is a great interest in finding alternatives and green solvents in extraction processes to replace petroleum based solvents. In order to investigate these possibilities, computational methods, as Hansen solubility parameters (HSP) and conductor-like screening model for real solvent (COSMO-RS)
V R Koch et al.
Science (New York, N.Y.), 204(4392), 499-501 (1979-05-04)
Rechargeable, high energy density lithium batteries require an efficient lithium electrode. Earlier work with electrolytes based on propylene carbonate, methyl acetate, and tetrahydrofuran yielded poor lithium electrode cycling efficiencies because of electrolyte reduction by lithium. Solutions of lithium hexafluoroarsenate in
Solvent applications of 2-methyltetrahydrofuran in organometallic and biphasic reactions.
Aycock DF.
Organic Process Research & Development, 11(1), 156-159 (2007)
Axel Kahnt et al.
Journal of the American Chemical Society, 133(25), 9863-9871 (2011-05-21)
Electron-transfer reactions are fundamental to many practical devices, but because of their complexity, it is often very difficult to interpret measurements done on the complete device. Therefore, studies of model systems are crucial. Here the rates of charge separation and
Tony W T Bristow et al.
Journal of the American Society for Mass Spectrometry, 25(10), 1794-1802 (2014-08-12)
For on-line monitoring of chemical reactions (batch or continuous flow), mass spectrometry (MS) can provide data to (1) determine the fate of starting materials and reagents, (2) confirm the presence of the desired product, (3) identify intermediates and impurities, (4)

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