The action of moisture on the homoleptic organoplatinum(II) compound [NBu₄]₂[Pt(CF₃)₄] (1) gives rise to the carbonyl derivative [NBu₄][Pt(CF₃)₃(CO)] (2), which is itself moisture stable. However, treatment of compound 2 with HCl(aq) results in the formation of [NBu₄][cis-Pt(CF₃)₂Cl(CO)] (3), which undergoes degradation of an additional CF₃ group by further treatment with HCl(aq) in large excess, affording [NBu₄][cis-Pt(CF₃)Cl₂(CO)] (4). The carbonyl derivatives 2–4 are fairly stable species, in which the CO ligand, however, can be readily extruded by reaction with trimethylamine N-oxide (ONMe₃). Thus, compound 2 reacts with ONMe₃ in the presence of a number of neutral or anionic ligands affording a series of singly or doubly charged derivatives with the general formulae [NBu₄][Pt(CF₃)₃(L)] [L=CNtBu (5), PPh₃ (6), P(o-tolyl)₃ (7), tht (8; tht=tetrahydrothiophene)] and [NBu₄]₂[Pt(CF₃)₃X] [X=Cl (9), Br (10), I (11)], respectively. Compound 2 also reacts with ONMe₃ and pyridin-2-thiol (C₅H₅NS) giving rise to the five-membered metallacyclic derivative [NBu₄][Pt(CF₃)₂(CF₂NC₅H₄S-κC,κS)] (12), which can be viewed as a difluorocarbene species stabilized by intramolecular base coordination. On the other hand, treatment of compound 3 with ONMe₃ in the presence of C₅H₅NS yields the four-membered metallacyclic compound [NBu₄][Pt(CF₃)₂(NC₅H₄S-κN,κS)] (13). The geometries of the metallacycles in compounds 12 and 13 are compared. In the absence of any additional ligand, compound 3 undergoes dimerization producing the dinuclear species [NBu₄]₂[{Pt(CF₃)₂}₂(μ-Cl)₂] (14). Halide abstraction in the latter compound with AgClO₄ in THF yields the solvento compound cis-[Pt(CF₃)₂(thf)₂] (15). The highly labile character of the THF ligands in compound 15 makes this species a convenient synthon of the “cis-Pt(CF₃)₂” unit.