High-yield syntheses of the soluble, volatile complexes [{ML(Cl)}₂][M = U or Th, L = N(CH₂CH₂-NSiMe₃)₃] have been achieved. The molecular structure of the uranium complex shows it to be a dimer bridged by long U–(µ-Cl) bonds. These compounds are shown to be versatile starting materials for exploration of the chemistry of the amino(triamido) actinide fragment. Their reactions with Na[C₅R₅](R = H or Me) gave high yields of the monomeric complexes [ML(C₅R₅)] for which analogous non-chelate compounds are unknown. These species are fluxional and display apparent three-fold symmetry on the NMR time-scale in solution at room temperature, although an exchange process via a trigonal-bipyramidal transition state is postulated on the basis of variable-temperature NMR studies for the compound M = Th, R = Me. The molecular structure of the compound M = U, R = Me has been determined by X-Ray diffraction. Reaction of the chloro complexes with lithium tetrahydroborate in tetrahydrofuran (thf) gave high yields of [ML(H₃BH)(thf)]. The uranium derivative has been structurally characterised and has distorted-octahedral geometry. Sublimation of these compounds in vacuo led cleanly to the base-free complexes [{ML(H₃BH)}₂]. The volatile dimeric alkoxide derivatives [{ML(OBu^t)}₂] have been prepared similarly.