Tm is an abbreviation for anionic tridentate ligand based on three imidazole-2-thioketone groups bonded to a borohydride center. They are examples of scorpionate ligands. Various ligands in this family are known, differing in what substituents are on the imidazoles. The most common is Tm<sup>Me</sup>, which has a methyl group on the nitrogen. It is easily prepared by the reaction of molten methimazole (1-methylimidazole-2-thione) with sodium borohydride, giving the sodium salt of the ligand. Salts of the Tm<sup>Me</sup> anion are known also for lithium and potassium. Other alkyl- and aryl-group variations are likewise named Tm<sup>R</sup> according to those groups.
The Tm<sup>Me</sup> anion is a tridentate, tripodal ligand topologically similar to the more common Tp ligands, but the two classes of ligands differ in several ways. Tm<sup>Me</sup> has three "soft" sulfur donor atoms, whereas Tp<sup>âÂÂ</sup> has three nitrogen donor atoms. The thioamide sulfur is highly basic, as found for other thioureas. The Tm<sup>R</sup> anion simulates the environment provided by three facial thiolate ligands but without the 3- charge of a facial trithiolate.
The large 8-membered SCNBNCSM chelate rings in M(Tm<sup>Me</sup>) complexes are more flexible than the 6-membered CNBNCM rings in M(Tp) complexes. This flexibility enables the formation of boron-metal bonds, after loss of the B-H bond. This degradation of the coordinated Tm<sup>Me</sup> anion gives a dehydrogenated boranamide B(mt)<sub>3</sub> where mt = methimazolate.