Ekaterina M. Titova scite author profile

The title complex ( tBuPCP)IrH(Cl) (1; tBuPCP = κ3-2,6-(CH2PtBu2)2C6H3) appeared to be moderately active in NHMe2·BH3 (DMAB) dehydrogenation, allowing the systematic spectroscopic (variable-temperature NMR and IR) investigation of the reaction intermediates and products, under both stoichiometric and catalytic regimes, combined with DFT/M06 calculations. The formation of the hexacoordinate complex (tBuPCP)IrHCl(η1-BH3·NHMe2) (3) stabilized by a NH···Cl hydrogen bond is shown experimentally at the first reaction step. This activates both B–H and Ir–Cl bonds, initiating the precatalyst activation and very first DMAB dehydrogenation cycle. The same geometry is suggested by the DFT calculations for the key intermediate of the catalytic cycle, (tBuPCP)IrH2(η1-BH3·NHMe2) complex (6). In these complexes, DMAB is coordinated trans to the ipso carbon, allowing the steric repulsion between the amine–borane and tert-butyl groups at the phosphorus atoms to be overcome. Under catalytic conditions (2–5 mol % of 1) the hydride complex (tBuPCP)IrH(μ2-H2BH2) (5) was identified, which is not a dormant catalytic species but the steady-state intermediate formed as a result of the B–N bond breaking. DMAB dehydrogenation yields the borazane monomer H2BNMe2 (detected by 11B NMR); dimerization of this species gives the final product [H2BNMe2]2 and (tBuPCP)IrH4 as the catalyst resting state. The scenario of B–N bond cleavage in DMAB leading to byproducts of dehydrogenation such as bis(dimethylamino)hydroborane and (tBuPCP)IrH(μ2-H2BH2) (5) is proposed. The results obtained allow us to suggest the mechanism of catalytic DMAB dehydrocoupling that could be generalized to other processes.

show abstract

Amine Boranes Dehydrogenation Mediated by an Unsymmetrical Iridium Pincer Hydride: (PCN) vs (PCP) Improved Catalytic Performance

Luconi

Osipova

Giambastiani

et al. 2018

Organometallics

View full text Add to dashboard Cite

The Ir III hydride ( tBu PCN)IrHCl (1) containing the tridendate unsymmetrical pincer ligand tBu PCN − { tBu PCN(H) = 1-[3-[(ditert-butylphosphino)methyl]phenyl]-1H-pyrazole} has been exploited as ammonia borane (NH 3 BH 3 , AB) and amine boranes dehydrogenation catalyst in THF solution at ambient temperature. 1 releases one H 2 equivalent per AB equivalent, with concomitant cyclic poly(aminoboranes) formation [B-(cyclotriborazanyl)-amine-borane (BCTB) and cyclotriborazane (CTB)] as the final "spent fuel". 1 has been found to have superior catalytic activity than its symmetrical analogue ( tBu PCP)IrHCl, with recorded TOF values of 580 h −1 (AB in THF) and 401 h −1 (DMAB in toluene) at ambient temperature. The reaction has been analyzed experimentally through multinuclear [ 11 B, 31 P{ 1 H}, 1 H] NMR and IR spectroscopy, kinetic rate measurements, and kinetic isotope effect determination with deuterated AB isotopologues. The hydride/borohydride intermediate ( tBu PCN)IrH(η 2 -BH 4 ) (2) is the catalyst resting state formed during the dehydrogenation process; it is detected by a variable-temperature multinuclear NMR of the reaction course (in the 190−323 K range). A DFT modeling of the reaction mechanism using DMAB as substrate has been performed with the geometry optimization in toluene at the M06 level of theory. The combination of the kinetic and computational data reveals that a simultaneous B−H/N−H activation occurs in the presence of 1, after the preliminary amine borane coordination to the metal center.

show abstract

Dinuclear Cu^I and Ag^I Pyrazolates Supported with Tertiary Phosphines: Synthesis, Structures, and Photophysical Properties

et al. 2019

View full text Add to dashboard Cite

New dinuclear silver(I) and copper(I) 3,5-bis(trifluoromethyl)pyrazolate compounds were prepared by the reaction of the corresponding trinuclear metal complexes with tertiary phosphines (PPh 3 , PCy 3 ). In the case of copper(I) trinuclear pyrazolate it was shown that the product structure depends on [a] A. N. Nesmeyanov Institute of Organoelement Compounds, 821 the reagent ratio: mono-and dinuclear complexes were obtained. All the dinuclear complexes obtained exhibit light emission in the solid state under UV irradiation. The observed photoluminescence behavior was confirmed by the TD-DFT study. Scheme 1. Possible paths of 11 group metals pyrazolates formation. Scheme 2. Main motifs of copper(II) (a, b, c), copper(I) and silver(I) (c) dinuclear pyrazolates.dine. [12] Such dinuclear macrocycles can be synthesized from polynuclear [MPz] n , [10a,11a] or trinuclear pyrazolates [11b] or from the corresponding metal salts. [2b] Moreover, dinuclear copper pyrazolate complexes with tertiary phosphines were obtained only with pyrazoles containing strong electron withdrawing NO 2 groups.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.