Ligand Basicity and Chelate Effects on Sulfur Insertion vs. Sulfur Reduction by Zinc Thiolate Complexes

W T Michael Seo; Victor Tsang; Moises Ballesteros; Emily Y Tsui

doi:10.1002/chem.202401280

Ligand Basicity and Chelate Effects on Sulfur Insertion vs. Sulfur Reduction by Zinc Thiolate Complexes

Chemistry. 2024 May 13:e202401280. doi: 10.1002/chem.202401280. Online ahead of print.

Authors

W T Michael Seo¹, Victor Tsang¹, Moises Ballesteros¹, Emily Y Tsui²

Affiliations

¹ University of Notre Dame, Chemistry and Biochemistry, UNITED STATES.
² University of Notre Dame, Chemistry and Biochemistry, 251 Nieuwland Science Hall, 46556, Notre Dame, UNITED STATES.

PMID: 38739534
DOI: 10.1002/chem.202401280

Abstract

4- and 5-coordinate zinc thiolate complexes supported either by bis(carboxamide)pyridine frameworks or by substituted tris(pyrazolyl)borate ligands react with elemental sulfur (S8) following two distinct pathways. Some zinc thiolate moieties insert sulfur atoms to form zinc polysulfanide complexes, while others reduce sulfur and oxidize the thiolate. Here, we compare the effects of ligand electronics, strain, and sterics for selecting the respective reaction pathway. These results show that chelating and electron-deficient thiolate ligands better stabilize persistent zinc-bound polysulfanide species.

Keywords: inorganic chemistry; ligand effects; redox chemistry; sulfur; zinc.