Metall‐π1‐Komplexe von Benzolderivaten, XLI. Bis(η61‐anilin)chrom: Synthese, Redoxverhalten und Brønsted‐Basizität

Abstract

Metal π Complexes of Benzene Derivatives, XLI^[1]. — Bis(η⁶1‐aniline)chromium: Synthesis, Redox Properties and Brønsted BasicityBis(η⁶1‐aniline)chromium (6) has been prepared by protodesilylation of its N,N,N′,N′1‐tetrakis(trimethylsilyl) derivative 5, which is accessible by metal‐atom ligand‐vapor cocondensation (cc). Bis(η⁶1‐dimethylaniline)chromium (3) is obtained directly from cc. The couples 3^+/0 and 6^+/0 feature the most negative redox potentials E_1/2 ever reported for bis(arene)1‐metal complexes. According to EPR spectroscopy, applied to the radical cations 3^+· and 6^+· the site of oxidation is largely localized on the metal. The pH dependence of E_1/2 is cast in Nerst‐Clark plots, whose breaks supply the pK_s values of the mono‐and diprotonated forms of 3 and 6. η⁶1‐Coordination to Cr^I increases the basicity of aniline by three pK units, whereas η⁶1‐coordination to Cr¹ effects a decrease by more than seven pK units. The first and second dissociation constants of the organometallic bis(ammonium) ions 3(H⁺)₂ and 6(H⁺)₂ differ by 2.7 pK units. This interval reflects the interaction of the two basic centers in 3 and 6 which approaches that of p1‐phenylenediamine. Thus, conjugation across the bis(η⁶1‐arene)chromium unit is virtually uninhibited.