Jacek Wojaczyński scite author profile

Elz ˙bieta Wojaczyn ´ska (ne ´e Ostrycharz) was born in Z ˙migród, Poland. She received her M.Sc. degree in organic chemistry from Wrocław University of Technology in 1997. Her doctoral thesis on the enantioselective synthesis and application of chiral sulfoxides was completed under the supervision of Professor Jacek Skarz ˙ewski in 2001. Her research at the Department of Organic Chemistry of the Wrocław University of Technology focuses on the synthesis of new chiral building blocks and of novel chiral ligands for the asymmetric synthesis. Jacek Wojaczyn ´ski was born in Wrocław in 1969. He graduated from the University of Wrocław in inorganic chemistry in 1993. He received his Ph.D. in 1998 for work on the influence of asymmetric modification of the porphyrin periphery on the properties of formed complexes. He is a member of the Porphyrin Chemistry Research Group led by Professor Lechosław Latos-Graz ˙yn ´ski at the Department of Chemistry, University of Wrocław. His current scientific interests include degradation of tetrapyrrolic macrocycles and investigation of paramagnetic hemoproteins using NMR spectroscopy.

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Modern Stereoselective Synthesis of Chiral Sulfinyl Compounds

Wojaczyńska

2020

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Chiral sulfinyl compounds, sulfoxides, sulfoximines, sulfinamides, and other derivatives, play an important role in asymmetric synthesis as versatile auxiliaries, ligands, and catalysts. They are also recognized as pharmacophores found in already marketed and well-sold drugs (e.g., esomeprazole) and used in drug design. This review is devoted to the modern methods of preparation of sulfinyl derivatives in enantiopure or enantiomerically enriched form. Selected new approaches leading to racemic products for which the asymmetric variant can be developed in the future are mentioned as well.

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Poly- and oligometalloporphyrins associated through coordination

Wojaczyński

Latos‐Grażyński

2000

Coordination Chemistry Reviews

251

112

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An Integrated Approach to the Mid-Spin State (S = 3/2) in Six-Coordinate Iron(III) Chiroporphyrins

Simonato

Pécaut

et al. 2000

Inorg. Chem.

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An intermediate-spin state very close to the mid-spin state (S = 3/2) can be stabilized in a ferric porphyrin by an integrated approach which combines the favorable effects of a weak axial field strength and of a small macrocycle hole. Axial ligand exchange by reaction of chloroiron(III)tetramethylchiroporphyrin [(TMCP)FeCl] with silver perchlorate in ethanol-chloroform leads to ethanol-ligated ferric chiroporphyrins. Two distinct crystalline products containing a bisethanol complex [[(TMCP)FeIII(EtOH)2]ClO4] and three variants of a mixed ethanol-water complex [[(TMCP)FeIII(EtOH)(H2O)]ClO4] have been structurally characterized in the solid state. The small hole of the ruffled chiroporphyrin and the weak axial oxygen ligation result in strongly tetragonally distorted complexes. The six-coordinate species exhibit long axial Fe-O bond distances (2.173(5)-2.272(4) A) and the shortest equatorial Fe-N(av) distances (1.950(5)-1.978(7) A) found as yet in a ferric porphyrin, reflecting a singly occupied dz2 orbital and a largely depopulated dx2-y2 orbital. An intriguing case of bond-stretch isomerism is seen for the axial Fe-O bonds in two crystallographically independent mixed ethanol-water species, and it is accounted for by their distinct intra- and intermolecular hydrogen-bond arrays. The Mössbauer spectrum (delta = 0.35(1) mm s-1 and delta EQ = 3.79(1) mm s-1 at 77 K) indicates a strong tetragonal distortion around the ferric ion, in agreement with the structural data. The value of the magnetic moment (mu eff = 3.8 mu B in the range 50-300 K) strongly supports a mid-spin state (S = 3/2). The EPR spectrum at 80 K (g perpendicular approximately 4.0, g parallel approximately 2.00) is consistent with a nearly pure mid-spin state (4A2) with little rhombic distortion. The 1H NMR spectra in CDCl3-EtOH exhibit upfield-shifted resonances for the pyrrole protons (delta approximately -30 ppm) which are consistent with the depopulated iron dx2-y2 orbital. Solution equilibria with water and various alcohols, and the spin state of the corresponding species, are discussed on the basis of the NMR data. The bisethanol and ethanol-water species are potential models of unknown hemoprotein ligation states such as Tyr(OH)/Tyr(OH) or Tyr(OH)/H2O that could be obtained by site-directed mutagenesis.

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