Trimethylindium, often abbreviated to TMI or TMIn, is the organoindium compound with the formula In(CH<sub>3</sub>)<sub>3</sub>. It is a colorless, pyrophoric solid. Unlike trimethylaluminium, but akin to trimethylgallium, TMI is monomeric.
TMI is prepared by the reaction of indium trichloride with methyl lithium.
Compared to trimethylaluminium and trimethylgallium, InMe<sub>3</sub> is a weaker Lewis acid. It forms adducts with secondary amines and phosphines. A complex with the heterocyclic triazine ligand (Pr<sup>i</sup>NCH<sub>2</sub>)<sub>3</sub> forms a complex with 6-coordinate In, where the C-In-C angles are 114ð-117ð with three long bonds to the tridentate ligand with N-In-N angles of 48.6ð and long In-N bonds of 278 pm.
In the gaseous state InMe<sub>3</sub> is monomeric, with a trigonal planar structure, and in benzene solution it is tetrameric. In the solid state there are two polymorphs, a tetragonal phase which is obtained, for example, by sublimation and a lower density rhombohedral phase discovered in 2005, when InMe<sub>3</sub> re-crystallised from hexane solution.
In the tetragonal form InMe<sub>3</sub> is tetrameric as in benzene solution and there is bridging between tetramers to give an infinite network. Each indium atom is five coordinate, in a distorted trigonal planar configuration, the three shortest bonds (ca. 216 pm) are those in the equatorial plane, with longer axial bonds, 308 pm for the In-C bonds joining the InMe<sub>3</sub> units to form the tetramers and 356 pm for the In-C linking the tetramers into an infinite network. The solid state structures of GaMe<sub>3</sub> and TlMe<sub>3</sub> are similar. The association in the solid state accounts for the high melting point of 89ðâÂÂ89.8 ðC compared to triethylindium which melts at âÂÂ32 ðC.
The rhombohedral form of InMe<sub>3</sub> consists of cyclic hexamers with 12 membered (InC)<sub>6</sub> rings in an extended chair conformation. The hexamers are interlinked into an infinite network. Indium atoms are five coordinate the equatorial In-C distances average 216.7pm almost identical to the average for the tetragonal form, and the axial bonds are 302.8pm joining the InMe<sub>3</sub> units into hexamers and 313.4 pm linking the hexamers to form the infinite network.
Indium is a component of several compound semiconductors, including as InP, InAs, InN, InSb, GaInAs, InGaN, AlGaInP, AlInP, and AlInGaNP. These materials are prepared by metalorganic vapour phase epitaxy (MOVPE) and TMI is the preferred source for the indium component. High purity in TMI (99.9999% pure or greater) is essential for many of these applications. For some materials, electron mobilities are observed as high as 287,000 cmò/Vs at 77 K and 5400 cmò/Vs at 300 K, and background carrier concentration as low as 6ÃÂ10<sup>13</sup> cm<sup>âÂÂ3</sup>.
The vapor pressure equation log P (Torr) = 10.98âÂÂ3204/T (K) describes TMI within a wide range of MOVPE growth conditions.
TMI is pyrophoric.