From Surf Wiki (app.surf) — the open knowledge base
Ethylaluminium sesquichloride
Ethylaluminium sesquichloride, also called EASC, is an industrially important organoaluminium compound used primarily as a precursor to triethylaluminium and as a catalyst component in Ziegler–Natta type systems for olefin and diene polymerizations. Other applications include use in alkylation reactions and as a catalyst component in linear oligomerization and cyclization of unsaturated hydrocarbons. EASC is a colourless liquid, spontaneously combustible in air and reacts violently when in contact with water and many other compounds.
Production
Methyl, ethyl, and other alkyl or aralkyl halides that are not dehydrohalogenated readily can react with aluminium in an exothermic process to form organoaluminium sesquihalides in high yields. An important example is the reaction of ethyl chloride with aluminium to form ethylaluminium sesquichloride.
:3 C2H5Cl + 2 Al → (C2H5)3Al2Cl3
The reaction is carried out with aluminium in the form of turnings, shavings, granules, or powder. Oxygen and moisture must be rigorously excluded. The reaction can be initiated with a small amount of mercury or iodine. It also can be started by treating the aluminium with an alkylaluminium halide.
The products are equilibrium mixtures of the codimer (R2AlX • RAlX2) and homodimers [(R2AlX)2 and (RAlX2)2], in which the two aluminium atoms of each component are halogen-bridged.
When byproduct reactions take place to a significant extent, the excess Al – Cl content in the R3Al2Cl3 product can be decreased by addition of the calculated amount of triethylaluminium. Overall, however, it is critical to control reaction conditions as slight excursions can result in catastrophic events.
Reactions
Conversion to trialkylaluminium compounds
The alkylaluminium sesquihalides convert to dialkylaluminium halide or trialkylaluminium materials upon treatment with active metals, such as sodium or magnesium. For example, diethylaluminium chloride or triethylaluminium can be produced from ethylaluminium sesquichloride by sodium reduction:
:2 (C2H5)3Al2Cl3 + 3 Na → 3 (C2H5)2AlCl + Al + 3 NaCl
:3 (C2H5)2AlCl + 3 Na → 2 (C2H5)3Al + Al + 3 NaCl
A magnesium-aluminium alloy can provide the reduction function simultaneously with reaction between aluminium and the alkyl halide:
:4 C2H5Cl + Al2Mg → 2 (C2H5)2AlCl + MgCl2
The sesquichloride reduction process is currently the most economical route available for production of trimethylaluminium. Trialkylaluminium products made by this process generally contain trace levels of residual chloride but do not contain aluminium hydrides other low-level components found in the aluminium-hydrogen-olefin processes.
Reaction of acids with trialkylaluminiums to produce alkylaluminium chlorides
Diethylaluminium chloride (DEAC), ethylaluminium sesquichloride (EASC), and ethylaluminium dichloride (EADC) can all be prepared by the reaction of triethylaluminium with HCl (where n = 1,1.5 or 2):
:(C2H5)3Al3 + n HCl → (C2H5)3−nAlCln + n C2H6
The products and their derivatives are used as components of catalysts for the production of polyolefins and some elastomers.
References
References
- [http://www.albemarle.com/Products_and_services/Catalysts/Polyolefin/Aluminum_alkyls/ Aluminum alkyls. Albemarle Corporation], 2010
- "Aluminum Compounds, Organic".
This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.
Ask Mako anything about Ethylaluminium sesquichloride — get instant answers, deeper analysis, and related topics.
Research with MakoFree with your Surf account
Create a free account to save articles, ask Mako questions, and organize your research.
Sign up freeThis content may have been generated or modified by AI. CloudSurf Software LLC is not responsible for the accuracy, completeness, or reliability of AI-generated content. Always verify important information from primary sources.
Report