One electron reduced square planar bis(benzene-1,2-dithiolato) copper dianionic complex and redox switch by O2/HO(-)

Citation:
Maiti, B. K., L. B. Maia, K. Pal, B. Pakhira, T. Aviles, I. Moura, S. R. Pauleta, J. L. Nunez, A. C. Rizzi, CD Brondino, S. Sarkar, and J. J. Moura. "One electron reduced square planar bis(benzene-1,2-dithiolato) copper dianionic complex and redox switch by O2/HO(-)." Inorg Chem. 53 (2014): 12799-808.

Abstract:

The complex [Ph4P]2[Cu(bdt)2] (1(red)) was synthesized by the reaction of [Ph4P]2[S2MoS2CuCl] with H2bdt (bdt = benzene-1,2-dithiolate) in basic medium. 1(red) is highly susceptible toward dioxygen, affording the one electron oxidized diamagnetic compound [Ph4P][Cu(bdt)2] (1(ox)). The interconversion between these two oxidation states can be switched by addition of O2 or base (Et4NOH = tetraethylammonium hydroxide), as demonstrated by cyclic voltammetry and UV-visible and EPR spectroscopies. Thiomolybdates, in free or complex forms with copper ions, play an important role in the stability of 1(red) during its synthesis, since in its absence, 1(ox) is isolated. Both 1(red) and 1(ox) were structurally characterized by X-ray crystallography. EPR experiments showed that 1(red) is a Cu(II)-sulfur complex and revealed strong covalency on the copper-sulfur bonds. DFT calculations confirmed the spin density delocalization over the four sulfur atoms (76%) and copper (24%) atom, suggesting that 1(red) has a "thiyl radical character". Time dependent DFT calculations identified such ligand to ligand charge transfer transitions. Accordingly, 1(red) is better described by the two isoelectronic structures [Cu(I)(bdt2, 4S(3-,)*)](2-) <--> [Cu(II)(bdt2, 4S(4-))](2-). On thermodynamic grounds, oxidation of 1(red) (doublet state) leads to 1(ox) singlet state, [Cu(III)(bdt2, 4S(4-))](1-).

Notes:

Maiti, Biplab KMaia, Luisa BPal, KuntalPakhira, BholanathAviles, TeresaMoura, IsabelPauleta, Sofia RNunez, Jose LRizzi, Alberto CBrondino, Carlos DSarkar, SabyasachiMoura, Jose J GUnited StatesInorganic chemistryInorg Chem. 2014 Dec 15;53(24):12799-808. doi: 10.1021/ic501742j. Epub 2014 Dec 3.

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