In the pursuit of efficient electrocatalysts for the hydrogen evolution reaction (HER), a series of manganese and cobalt heterodinuclear complexes have been synthesized and characterized that have a stark resemblance with the [NiFe]-hydrogenase active site structure. Irradiation of [Mn(CO)] in the presence of 1.5 eq of [NaEPh] [E = S, Se, Te] followed by reaction with [Cp*CoCl] led to the formation of half-sandwiched trichalcogenate-bridged heterodinuclear complexes [{Mn(CO)}(μ-EPh)(CoCp*)] [E = S (); Se () and Te ()]. The reaction of these heterodinuclear trichalcogenate-bridged complexes with [LiBH·THF] yielded the corresponding dichalcogenate hydride-bridged heterobimetallic complexes [(CO)Mn(μ-EPh)(μ-H)(CoCp*)] [E = S (); Se () and Te ()], which closely imitate the Ni-R intermediate of [NiFe]-hydrogenase. The resultant complexes () displayed impressive H production in DMF in the presence of HBF, whereas the Te-based complex () showcased the highest TON (184 h) with an impressive Faradaic efficiency of >98%. The DFT investigations revealed a unique role of bridging chalcogens in catalysis, wherein, depending on the identity of the chalcogen (S, Se, or Te), protonation could occur via two distinct routes. This study represents a rare example of the full trio of S/Se/Te-based heterodinuclear complexes whose electrocatalytic HER activity has been probed under analogous conditions.
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