Sulfonium-Pincer Ligands Flexibility in Pt(II) Complexes

Li, Ruiping; Barel, Nitsan; Subramaniyan, Vasudevan; Tibika, Francoise; Hoffman, Ralph E.; Tulchinsky, Yuri

doi:10.1021/acs.organomet.2c00578

“…The 1 J Pt-P of 2037 Hz exhibited by the tris-cationic sulfonium complex [6](BF 4 ) 3 is significantly smaller than that of [5](OTf) 2 (Table 1, entry 3), as well as that of other bis-cationic sulfonium Pt(II) complexes we reported earlier (Table S3, entries 1-3). [9] It is also lower in comparison to the values reported for the Pt(II) and Pt(0) complexes of other cationic and bis-cationic pincer ligands (Table S3, entries 4-8). [16,17] The highly electrophilic character of Pt in [6](BF 4 ) 3 was further supported by the NBO calculations (ωB97X-D3/ Def2-TZVP) we performed on the optimized model analogs of the Pt complexes mentioned above (where t Bu and Ph groups were replaced by H atoms for simplicity).…”

Section: Methodsmentioning

confidence: 67%

“…In our earlier study, [9b] we showed that flexible PSP‐based sulfonium pincer ligands I and II were found to undergo an easy interconversion between a trans ‐κ 3 ‐PSP and a cis ‐κ 2 ‐PP mode that was always accompanied by a trans‐ to‐ cis isomerization of the phosphines (Scheme 2a). Therefore, maintaining the trans geometry seems to be essential in preserving the Pt−S coordination.…”

Section: Methodsmentioning

confidence: 95%

“…Computational analysis of our systems attested that embedding sulfonium cations in a pincer framework significantly enhances their inherent π‐acidity and places them among the best π‐acceptor ligands available today. Yet, our preliminary attempts to use them in π‐acid catalysis were unsuccessful due to the hemilability of these sulfonium pincer ligands which we disclosed in a subsequent study [9b] . Indeed, in their Pt(II) complexes, the sulfonium‐metal bond easily dissociates precluding the formation of a potentially catalytically active sulfonium‐Pt(II) core.…”

Section: Methodsmentioning

confidence: 99%

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Sulfonium Cation in the Service of π‐Acid Catalysis**

Li,

Zafar,

Danovich

et al. 2023

Angew Chem Int Ed

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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.

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Sulfonium Cation in the Service of π‐Acid Catalysis**

Li,

Zafar,

Danovich

et al. 2023

Angewandte Chemie

Self Cite

0

View full text Add to dashboard Cite

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.

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Assembling Di- and Polynuclear Cu(I) Complexes with Rigid Thioxanthone-Based Ligands: Structures, Reactivity, and Photoluminescence

Zafar,

Subramaniyan,

Ansari

et al. 2024

Inorg. Chem.

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Thioxanthone (TX) molecules and their derivatives are well-known photoactive compounds. Yet, there exist only a handful of luminescent systems combining TX with transition metals. Recently, we reported a TX-based PSP pincer ligand (L1) that appears as a promising platform for filling this niche. Herein, we demonstrate that with Cu(I) this ligand exclusively assembles into dimeric structures with either di-or polynuclear Cu(I) cores. With cationic Cu(I) precursors, complexes featuring solvent-bridged bis-cationic cores were obtained. These coordinatively unsaturated bimetallic systems showed surprisingly facile activation of the chloroform C−Cl bonds, suggesting a possible metal−metal cooperation. The reaction of L1 with binary Cu(I) halides afforded dimeric complexes with polynuclear [CuX] n (n = 3 or 4) cores. With X = Br or I, emissive complexes containing stairstep [CuX] 4 clusters were obtained. Emission lifetimes in the microsecond range measured for these complexes were indicative of a triplet emission (phosphorescence), which according to our time-dependent density functional theory study originates from a halide-metal-to-ligand charge transfer between the [CuX] 4 cluster and the TX backbone of L1. Finally, the distinctive polynucleating behavior of L1 toward Cu(I) was also showcased by a comparison to another PSP ligand with a diaryl thioether backbone (L2), which formed only mononuclear pincer-type complexes, lacking any unusual reactivity or photoluminescence.

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Sulfonium-Pincer Ligands Flexibility in Pt(II) Complexes

Cited by 4 publications

References 57 publications

Sulfonium Cation in the Service of π‐Acid Catalysis**

Sulfonium Cation in the Service of π‐Acid Catalysis**

Sulfonium Cation in the Service of π‐Acid Catalysis**

Assembling Di- and Polynuclear Cu(I) Complexes with Rigid Thioxanthone-Based Ligands: Structures, Reactivity, and Photoluminescence

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