Alexander Kochan scite author profile

A new class of chiral C-symmetric N-donor pincer ligands, 2,5-bis(2-oxazolinyldimethylmethyl)pyrroles (PdmBox)H, was synthesized starting from the readily available ethyl 2,2-dimethyl-3-oxobutanoate (1). The synthesis of the ligand backbone was achieved by oxidative enole coupling with CuC1 followed by Paal-Knorr-type pyrrole synthesis. The corresponding protioligands (PdmBox)H (R = iPr: 5a; Ph: 5b) were obtained by condensation with amino alcohols and subsequent zinc-catalyzed cyclization. Reaction of the lithiated ligands with [NiCl(dme)] yielded the corresponding square-planar nickel(II) complexes [(PdmBox)NiCl] (6a/b). Salt metathesis of 6a with the corresponding alkali or cesium salts in acetone led to the formation of air- and moisture-stable [(PdmBox)NiX] (X = F (7), X = Br (8), X = I (9), X = N (10), X = OAc (11). Furthermore, the conversion of [(PdmBox)NiF] (7) with hydride transfer reagents such as PhSiH led to the stable hydrido species [(PdmBox)NiH] (27), the stoichiometric transformations of which were studied. Treatment of 6a with organometallic reagents such as ZnEt, PhLi, PhC≡CLi, NsLi, or (Bn)Mg(THF) gave the corresponding alkyl, alkynyl, or aryl complexes. The availability of the new nonisomerizable PdmBox pincer ligands allowed the comparative study of their ligation to square-planar complexes as helically twisted spectator ligands as opposed to the enforced planar rigidity of their iso-PmBox analogues and the way this influences the reactivity of the Ni complexes.

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Coordination Chemistry of the PdmBOX Pincer Ligand: Reactivity at the Metal and the Ligand

Wenz

Vasilenko

Kochan

et al. 2017

Eur J Inorg Chem

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Peri‐Functionalized Tetraazaperylenes: Strong Emitters for Molecular Polaritonics

Wesp

Valsalan

Kochan

et al. 2022

Chemistry A European J

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The functionalization of the peri position of the bay chlorinated tetraazaperylene was investigated by varying the donor behavior of the substituents to assess the resulting photophysical and electrochemical properties. To accomplish this, electron donating alkyl‐ and arylsulfido substituents, methoxy and methyl groups were selectively introduced into the peri position via a nucleophilic aromatic substitution of the perchlorinated tetraazaperylene. Both the alkylated and benzylated thioethers displayed high fluorescence quantum yields of up to 80 %. Compounds from the latter group were integrated in resonant optical microcavities to achieve strong light‐matter coupling. The formation of exciton‐polaritons was observed by angle‐dependent reflectivity and photoluminescence that could be tuned by variation of the concentration of the fluorophores and of the thickness of the cavity.

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