Trimethylaluminium
Trimethylaluminium or TMA is one of the simplest examples of an organoaluminium compound. Despite its name it has the formula, as it exists as a dimer. This colorless liquid is pyrophoric. It is an industrially important compound, closely related to triethylaluminium.
Structure and bonding
The structure and bonding in and diborane are analogous. In, the Al-C and Al-C distances are 1.97 and 2.14 Å, respectively. The Al center is tetrahedral. The carbon atoms of the bridging methyl groups are each surrounded by five neighbors: three hydrogen atoms and two aluminium atoms. The methyl groups interchange readily intramolecularly. At higher temperatures, the dimer cracks into monomeric.Synthesis
TMA is prepared via a two-step process that can be summarized as follows:Applications
Catalysis
Starting with the invention of Ziegler-Natta catalysis, organoaluminium compounds have a prominent role in the production of polyolefins, such as polyethylene and polypropylene. Methylaluminoxane, which is produced from TMA, is an activator for many transition metal catalysts.Semiconductor applications
TMA is also used in semiconductor fabrication to deposit thin film, high-k dielectrics such as via the processes of chemical vapor deposition or atomic layer deposition. TMA is the preferred precursor for metalorganic vapour phase epitaxy of aluminium-containing compound semiconductors, such as AlAs, AlN, AlP, AlSb, AlGaAs, AlInGaAs, AlInGaP, AlGaN, AlInGaN, AlInGaNP, etc. Criteria for TMA quality focus on elemental impurities, oxygenated and organic impurities.Photovoltaic applications
In deposition processes very similar to semiconductor processing, TMA is used to deposit thin film, low-k dielectric layer stacks with via the processes of chemical vapor deposition or atomic layer deposition. The provides excellent surface passivation of p-doped silicon surfaces. The layer is typically the bottom layer with multiple silicon nitride layers for capping.Reactions
Hydrolysis and related protonolysis reactions
Trimethylaluminium is hydrolyzed readily, even dangerously:Under controlled conditions, the reaction can be stopped to give methylaluminoxane:
Alcoholysis and aminolysis reactions proceed comparably. For example, dimethylamine gives the dialuminium diamide dimer:
Reactions with metal chlorides
TMA reacts with many metal halides to install alkyl groups. When combined with gallium trichloride, it gives trimethylgallium. reacts with aluminium trichloride to give.TMA/metal halide reactions have emerged as reagents in organic synthesis. Tebbe's reagent, which is used for the methylenation of esters and ketones, is prepared from TMA and titanocene dichloride. In combination with 20 to 100 mol %, the adds "across" alkynes to give vinyl aluminium species that are useful in organic synthesis in a reaction known as carboalumination.
Adducts
As for other "electron-deficient" compounds, trimethylaluminium gives adducts. The Lewis acid properties of have been quantified. The enthalpy data show that is a hard acid and its acid parameters in the ECW model are EA = 8.66 and CA = 3.68.These adducts, e.g. the complex with the tertiary amine DABCO, are safer to handle than TMA itself.
The NASA ATREX mission employed the white smoke that TMA forms on air contact to study the high altitude jet stream.