Redox-Active Carboranyl Diphosphine as an Electron and Proton Transfer Agent

Nussbaum, Bryce C.; Cavicchi, Cameron R.; Smith, Mark D.; Pellechia, Perry J.; Peryshkov, Dmitry V.

doi:10.1021/acs.inorgchem.4c02022

Inorg. Chem.

2024

DOI: 10.1021/acs.inorgchem.4c02022

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Redox-Active Carboranyl Diphosphine as an Electron and Proton Transfer Agent

Bryce C. Nussbaum,

Cameron R. Cavicchi,

Mark D. Smith

et al.

Abstract: In this work, we report the first example of the PCET reactivity for a boron cluster compound, the zwitterionic nido-carboranyl diphosphonium derivative 7-P(H)tBu2-10-P(H)iPr2-nido-C2B10H10. This main-group reagent efficiently transfers two electrons and two protons to quinones to yield hydroquinones and regenerate a neutral closo-carboranyl diphosphine, 1-PtBu2-2-PiPr2-closo-C2B10H10. As we have previously reported the conversion of this closo-carboranyl diphosphine into the zwitterionic nido- derivative upon… Show more

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N–H Bond Activation of Ammonia by a Redox-Active Carboranyl Diphosphine

Humphries,

Tellier,

Smith

et al. 2024

J. Am. Chem. Soc.

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In this work, we report the room-temperature N−H bond activation of ammonia by the carboranyl diphosphine 1-P t Bu 2 -2-P i Pr 2 -closo-C 2 B 10 H 10 (1) resulting in the formation of zwitterionic 7-P(NH 2 ) t Bu 2 -10-P(H) i Pr 2 -nido-C 2 B 10 H 10 (2). Unlike the other phosphorus-based ambiphiles that require geometric constraints to enhance electrophilicity, the new mode of bond activation in this main-group system is based on the cooperation between electron-rich trigonal phosphine centers and the electronaccepting carborane cluster. As an exception among many other metal-based and metal-free systems, the N−H bond activation of gaseous ammonia or aqueous ammonium hydroxide by carboranyl diphosphine 1 proceeds with tolerance of air and water. Mechanistic details of ammonia activation were explored computationally by DFT methods, demonstrating an electrophilic activation of ammonia by the phosphine center. This process is driven by the reduction of the boron cluster followed by an ammonia-assisted deprotonation and proton transfer. A subsequent reaction of 2 and TEMPO results in the cleavage of all N−H and P−H bonds with the formation of a cyclic phosphazenium cation supported by an anionic cluster N(7-P t Bu 2 -8-P i Pr 2 )-nido-C 2 B 9 H 10 (3). Transformations reported herein represent the first example of ammonia oxidation via triple hydrogen atom abstraction facilitated by a metal-free system.

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N–H Bond Activation of Ammonia by a Redox-Active Carboranyl Diphosphine

Humphries,

Tellier,

Smith

et al. 2024

J. Am. Chem. Soc.

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Redox-Active Carboranyl Diphosphine as an Electron and Proton Transfer Agent

Cited by 1 publication

References 65 publications

N–H Bond Activation of Ammonia by a Redox-Active Carboranyl Diphosphine

N–H Bond Activation of Ammonia by a Redox-Active Carboranyl Diphosphine

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