Novel Sulfonated CNN Pincer Ligands for Facile C−H Activation at a Pt(II) Center

Abstract: Two novel sulfonated CNN‐pincer ligands 1b and 1c and the corresponding chloro and aqua complexes K[CNNLPtCl] and CNNLPt(H2O), 3b–3c and 2b–2c, were prepared and fully characterized including single crystal X‐ray diffraction. Along with the previously described complexes 2a and 3a, the derivatives of a CNN pincer ligand 1a, these complexes form a family of structurally similar compounds where the pincer core rigidity increases in the series 2a (3a)<2b (3b)<2c (3c), as deduced from their XRD data. The increased… Show more

“…The catalytic H/D exchange between aromatic substrates H n Sub and TFE- d 1 (eq ) used as a deuterium source was carried out at 80 °C using, typically, 0.1–0.5 mol % of complex 1 as a catalyst. , In a typical experiment 0.050 mL of H n Sub (or ∼50 mg for solids) was dissolved in 0.450 mL of wet TFE- d 1 containing 0.150 M D 2 O and 6–12 μmol of catalyst 1 . The water additive was shown earlier to slow down the catalyst deactivation caused by the formation of poorly soluble polynuclear species .…”

“…A catalyst deactivation due to the formation of a light yellow precipitate that was not identified was observed for benzoic acid after about 6 h of reaction. Accordingly, the H/D exchange reactivity of this substrate was only analyzed for the first 6 h. For a few other substrates such as chloro- and bromobenzene formation of a red precipitate, presumably the dinuclear product of the decomposition of catalyst 1 decomposition, , was observed, but only by the end of the monitored reaction period (∼24 h). Oxidative addition of the bromobenzene C–Br bond at a Pt­(II) center may also be involved to some extent.…”

“…The reaction mechanism with benzene as a substrate was studied earlier by means of kinetics, mechanistic tests, the DFT calculations. , It was found that the initial rate of the reaction in Scheme b is first order in both the substrate CH bond concentration, [C–H], and the catalyst 1 concentration, [ 1 ], (eq ): The proposed reaction sequence responsible for the substrate/TFE- d 1 H/D exchange, slightly modified in comparison to the original proposal, is presented in Scheme . It involves an arene coordination step a to form the σ-arene complex CNN 1 ArX with a CNN-coordinated pincer ligand, an isomerization step b to form an isomer CNO 1 ArX with a CNO-coordinated pincer ligand, a rate-limiting CH bond oxidative addition to a Pt­(II) center at step c , via the transition state TS Ar‑X , and a redox isomerization of the resulting Pt­(IV) hydrido complex 1 (Ar)(X) at step d via the lower-energy transition state TS 3 (Scheme ) to form the Pt­(II) aryl 1-X Ar and a facile H/D exchange of the latter with TFE- d 1 or D 2 O.…”

“…On the practical side, various homogeneous transition-metal complexes are now used as catalysts in H/D exchange reactions . Recently, we have reported the preparation of Pt­(II) complexes 1 – 3 supported by our novel CNN-pincer ligands (Chart ) that appeared to be some of the most active platinum-based homogeneous catalysts for H/D exchange between C­(sp 2 )–H bonds of arenes (H n Sub) and 2,2,2-trifluoroethanol- d 1 (TFE) (eq ), , in comparison to other reported Pt-based systems: , For instance, reaction with 10 vol %benzene as a substrate and complex 1 as a catalyst can be observed at 20 °C; the catalyst’s turnover frequency reaches 46 h –1 at 80 °C . Our subsequent study of reactivity of complex 1 led us to the discovery of Pt-mediated stoichiometric CH oxidation with O 2 of various arenes ArH and complex 1 (eq ).…”

“…Hence, a better understanding of the reactivity of complex 1 in reaction with respect to various arene C­(sp 2 )–H bonds, as well as the effect of arene substitution on such reactivity, may be important for future development of Pt-mediated CH functionalization chemistry. When complexes 2 and 3 are considered as the catalysts of the H/D exchange reaction (eq ), it is worth mentioning that they are more reactive than 1 but they also lose their activity much more rapidly at 80 °C (complex 2 ) or already above 20 °C (complex 3 ) due to the formation of poorly soluble polynuclear platinum species. Hence, in this work we focus on the H/D exchange reaction () catalyzed by complex 1 .…”

Catalytic Deuteration of C(sp²)–H Bonds of Substituted (Hetero)arenes in a Pt(II) CNN-Pincer Complex/2,2,2-Trifluoroethanol-d₁ System: Effect of Substituents on the Reaction Rate and Selectivity

“…The catalytic H/D exchange between aromatic substrates H n Sub and TFE- d 1 (eq ) used as a deuterium source was carried out at 80 °C using, typically, 0.1–0.5 mol % of complex 1 as a catalyst. , In a typical experiment 0.050 mL of H n Sub (or ∼50 mg for solids) was dissolved in 0.450 mL of wet TFE- d 1 containing 0.150 M D 2 O and 6–12 μmol of catalyst 1 . The water additive was shown earlier to slow down the catalyst deactivation caused by the formation of poorly soluble polynuclear species .…”

“…A catalyst deactivation due to the formation of a light yellow precipitate that was not identified was observed for benzoic acid after about 6 h of reaction. Accordingly, the H/D exchange reactivity of this substrate was only analyzed for the first 6 h. For a few other substrates such as chloro- and bromobenzene formation of a red precipitate, presumably the dinuclear product of the decomposition of catalyst 1 decomposition, , was observed, but only by the end of the monitored reaction period (∼24 h). Oxidative addition of the bromobenzene C–Br bond at a Pt­(II) center may also be involved to some extent.…”

“…The reaction mechanism with benzene as a substrate was studied earlier by means of kinetics, mechanistic tests, the DFT calculations. , It was found that the initial rate of the reaction in Scheme b is first order in both the substrate CH bond concentration, [C–H], and the catalyst 1 concentration, [ 1 ], (eq ): The proposed reaction sequence responsible for the substrate/TFE- d 1 H/D exchange, slightly modified in comparison to the original proposal, is presented in Scheme . It involves an arene coordination step a to form the σ-arene complex CNN 1 ArX with a CNN-coordinated pincer ligand, an isomerization step b to form an isomer CNO 1 ArX with a CNO-coordinated pincer ligand, a rate-limiting CH bond oxidative addition to a Pt­(II) center at step c , via the transition state TS Ar‑X , and a redox isomerization of the resulting Pt­(IV) hydrido complex 1 (Ar)(X) at step d via the lower-energy transition state TS 3 (Scheme ) to form the Pt­(II) aryl 1-X Ar and a facile H/D exchange of the latter with TFE- d 1 or D 2 O.…”

“…On the practical side, various homogeneous transition-metal complexes are now used as catalysts in H/D exchange reactions . Recently, we have reported the preparation of Pt­(II) complexes 1 – 3 supported by our novel CNN-pincer ligands (Chart ) that appeared to be some of the most active platinum-based homogeneous catalysts for H/D exchange between C­(sp 2 )–H bonds of arenes (H n Sub) and 2,2,2-trifluoroethanol- d 1 (TFE) (eq ), , in comparison to other reported Pt-based systems: , For instance, reaction with 10 vol %benzene as a substrate and complex 1 as a catalyst can be observed at 20 °C; the catalyst’s turnover frequency reaches 46 h –1 at 80 °C . Our subsequent study of reactivity of complex 1 led us to the discovery of Pt-mediated stoichiometric CH oxidation with O 2 of various arenes ArH and complex 1 (eq ).…”

“…Hence, a better understanding of the reactivity of complex 1 in reaction with respect to various arene C­(sp 2 )–H bonds, as well as the effect of arene substitution on such reactivity, may be important for future development of Pt-mediated CH functionalization chemistry. When complexes 2 and 3 are considered as the catalysts of the H/D exchange reaction (eq ), it is worth mentioning that they are more reactive than 1 but they also lose their activity much more rapidly at 80 °C (complex 2 ) or already above 20 °C (complex 3 ) due to the formation of poorly soluble polynuclear platinum species. Hence, in this work we focus on the H/D exchange reaction () catalyzed by complex 1 .…”

Catalytic Deuteration of C(sp²)–H Bonds of Substituted (Hetero)arenes in a Pt(II) CNN-Pincer Complex/2,2,2-Trifluoroethanol-d₁ System: Effect of Substituents on the Reaction Rate and Selectivity

Oxidation of Methylplatinum(II) Complexes K[(L)Pt^IIMe] with O₂ and C(sp³)-X (X = O and C) Reductive Elimination Reactivity of Methylplatinum(IV) Products (L)Pt^IVMe(OH): The Effect of Structure of Sulfonated CNN-Pincer Ligands L

Consecutive C–H and O₂ Activation at a Pt(II) Center To Produce Pt(IV) Aryls