Synthesis and redox reactions of binuclear zinc(ii)-thiolate complexes with elemental sulfur

The synthesis and characterization of a series of new binuclear Zn(ii) complexes bearing (i) terminal H2O/OH, (ii) bridging thiolates, (iii) bridging thiocarboxylates, (iv) bridging carboxylates, and (v) bridging carboxylate bearing free thiol groups are presented. Unlike the previously reported Co(ii) and Fe(ii) mediated desulfurization of thiolates to yield binuclear Co(ii)/Fe(ii)-hydrosulfide complexes by us (Jana et al., Inorg. Chem., 2018, 57, 617; Pal et al., Dalton Trans., 2019, 48, 5903), Zn(ii) was found to be incapable of mediating the C-S bond cleavage of thiolates and thus allowed the isolation of binuclear Zn(ii)-thiolate complexes. These binuclear Zn(ii)-thiolate complexes were further examined for chemical oxidation of the coordinated thiolates and insertion of neutral sulfur into the Zn(ii)-thiolate bonds. Interestingly, the latter reactivity study demonstrated the formation of a new binuclear Zn(ii) complex featuring a bridging S-3(2-) unit which was generated via a redox reaction involving the bridging thiolates and the externally added elemental sulfur.

Automated summary

The synthesis and characterization of new binuclear Zn(ii) complexes with various ligands were presented in the study. It was found that Zn(ii) cannot mediate the cleavage of thiolates, leading to the isolation of binuclear Zn(ii)-thiolate complexes. Further investigations showed the formation of a new binuclear Zn(ii) complex featuring a bridging S-3(2-) unit through redox reactions involving thiolates and externally added elemental sulfur.