HMNTA Complexes of Tetravalent Metal Ions: On the Roles of Carbonyl Oxygen and Amine Nitrogen in the Stabilization of Gas-Phase M(HMNTA)(2)(4+) Complexes
 
PUBLICATION: JOURNAL OF THE AMERICAN SOCIETY FOR MASS SPECTROMETRY
AUTHORS: Chen, XT; Xiong, ZX; Gong, Y
 
ABSTRACT
Gas-phase tetrapositively charged M(HMNTA)(2)(4+) (M = Zr, Hf, Th, and U) ions were generated via electrospray ionization of the M(ClO4)(4) and N,N,N',N',N '',N ''-hexamethylnitrilotriacetamide (HMNTA) mixtures in acetoni trile. In these complexes, the Zr4+, Th4+, and U4+ metal centers are coordinated by two neutral HMNTA ligands forming antitriangular prism geometry on the basis of DFT calculations. Bonding analysis reveals that the M4+ center is stabilized by six carbonyl oxygen atoms, while the interactions between M4+ and two central amine nitrogen atoms are negligible. This is further confirmed by the calculation results of two tetrapositive model complexes without either central amine nitrogen or carbonyl oxygen atoms, indicating the central nitrogen atom of HMNTA is not necessary in forming tetrapositive metal complexes that can be stabilized in gas phase. Collision-induced dissociation of Zr(HMNTA)(2)(4+), Hf(HMNTA)(2)(4+), and Th(HMNTA)(2)(4+), shows the formation of similar charge reducing products with the oxidation state of metal retaining IV whereas ions with other oxidation states were observed for the fragmentation products of U(HMNTA)(2)(4+).