Your search keyword '"Tulchinsky, Yuri"' showing total 2 results

1. Cationic ligands – from monodentate to pincer systems.

Author

Zafar, Mohammad, Subramaniyan, Vasudevan, Tibika, Françoise, and Tulchinsky, Yuri

Subjects

ELECTRONIC structure, CHELATES, OXIDATION-reduction reaction, SPECIES

Abstract

For a long time, the small group of cationic ligands stood out as obscure systems within the general landscape of coordinative chemistry. However, this situation has started to change rapidly during the last decade, with more and more examples of metal-coordinated cationic species being reported. The growing interest in these systems is not only of purely academic nature, but also driven by accumulating evidence of their high catalytic utility. Overcoming the inherently poor coordinating ability of cationic species often required additional structural stabilization. In numerous cases this was realized by functionalizing them with a pair of chelating side-arms, effectively constructing a pincer-type scaffold. This comprehensive review aims to encompass all cationic ligands possessing such pincer architecture reported to date. Herein every cationic species that has ever been embedded in a pincer framework is described in terms of its electronic structure, followed by an in-depth discussion of its donor/acceptor properties, based on computational studies (DFT) and available experimental data (IR, NMR or CV). We then elaborate on how the positive charge of these ligands affects the spectroscopic and redox properties, as well as the reactivity, of their complexes, compared to those of the structurally related neutral ligands. Among other systems discussed, this review also surveys our own contribution to this field, namely, the introduction of sulfonium-based pincer ligands and their complexes, recently reported by our group. [ABSTRACT FROM AUTHOR]

Published

2024

2. Sulfonium Cation in the Service of π‐Acid Catalysis.

Author

Li, Ruiping, Zafar, Mohammad, Danovich, David, Subramaniyan, Vasudevan, Tibika, Françoise, and Tulchinsky, Yuri

Subjects

HOMOGENEOUS catalysis, CATALYSIS, CATIONS, CYCLOISOMERIZATION, PYRAZOLYL compounds, LIGANDS (Chemistry)

Abstract

While still rare, cationic ligands offer much promise as tunable electron‐withdrawing ligands for π‐acid catalysis. Recently, we introduced pincer‐type sulfonium cations into the list of available strongly π‐acidic ancillary ligands. However, the M−S bond in sulfonium complexes of these ligands was found highly labile, precluding their catalytic applications. Herein we demonstrate that this obstacle can be overcome by increasing the rigidity of the sulfonium pincer scaffold. X‐ray analyses confirm that despite bearing a formal positive charge, the sulfur atom of this newly designed sulfonium ligand maintains its coordination to the Pt(II)‐center, while DFT calculations indicate that by doing so it strongly enhances the electrophilic character of the metal. Kinetic studies carried out on three model cycloisomerization reactions prove that such a tris‐cationic sulfonium‐Pt(II) complex is highly reactive, compared to its thioether‐based analogue. This proof‐of‐concept study presents the first example of employing sulfonium‐based ligands in homogeneous catalysis. [ABSTRACT FROM AUTHOR]

Published

2024