Zwitterionic 2‐Phosphaethene‐thiolates [(LC)P=CS(LC/P)]+ as PCS Building Blocks (LC = NHC, LP = PR3)

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The zwitterionic compounds [(LC)P=CS(LC/P)]+ (3+, LC = NHC, LP = PR3), featuring cationic substituents at the phosphorus and carbon atoms, are synthesized as their triflate salts at a multi‐gram scale from the reaction of Lewis base adducts of CS2, namely LC/P–CS2 (4), with a combination of [(LCP)4][OTf]4 (1[OTf]4) and Ph3P. The feasibility of using 3+ as PCS building blocks is showcased in their reactions with representative electrophiles (MeOTf) and nucleophiles (MesMgBr, Ph3PCH2), leading to selective functionalization of the PCS core at the S‐ and P‐terminus, respectively. Additionally, it is reported that 3+ can function as ambident nucleophiles with AgOTf (2 equivalents), affording unprecedented linear coordination polymer [Ag2(OTf)3‐μ2:κP,κS–((LC)P=CS(PCy3))]+ (6b), where the PCS moiety acts as a bridging ligand in transition metal complexes for the first time. Reduction of 3+ facilitates the cleavage of the P‐ and C‐bound substituents leading to the formation of the [PCS]– anion. Moreover, cycloaddition reactions of 3+ with 1[OTf]4 are shown to selectively yield five‐ and eight‐membered polyphosphorus heterocycles. Preliminary results suggest the possibility of activating the C–S bond in [(LC)P=CS(LC)]+, resulting in the formation of [(LC)P=C(LC)–P(LC)][OTf]2, 12[OTf]2, which may serve as a synthon for the PCP unit in future studies.