Direct B–H Functionalization of Icosahedral Carboranes <i>via</i> Hydrogen Atom Transfer

Ren, Hongyuan; Zhang, Ping; Xu, Jingkai; Ma, Wenxue; Tu, Deshuang; Lu, Changsheng; Yan, Hong

doi:10.1021/jacs.3c01314

Cited by 26 publications

(12 citation statements)

References 93 publications

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“…We have explored the photocatalytic reactions for the B–H functionalization of carboranes For example, the synthetic strategies through decarboxylation coupling c and hydrogen atom transfer have been developed to generate highly active boron-center carborane radicals, which further react to lead to the B–H functionalization. In this study, we still used a photoinduced fashion but introduced a new type of noncovalent cage···π interaction to develop an innovative reaction mode aiming to achieve the straightforward and site-selective B–H functionalization of nido -carboranes.…”

Section: Resultsmentioning

confidence: 99%

Photoinduced Selective B–H Activation of nido-Carboranes

Xu,

Zhang,

et al. 2024

J. Am. Chem. Soc.

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The development of new synthetic methods for B–H bond activation has been an important research area in boron cluster chemistry, which may provide opportunities to broaden the application scope of boron clusters. Herein, we present a new reaction strategy for the direct site-selective B–H functionalization of nido-carboranes initiated by photoinduced cage activation via a noncovalent cage···π interaction. As a result, the nido-carborane cage radical is generated through a single electron transfer from the 3D nido-carborane cage to a 2D photocatalyst upon irradiation with green light. The resulting transient nido-carborane cage radical could be directly probed by an advanced time-resolved EPR technique. In air, the subsequent transformations of the active nido-carborane cage radical have led to efficient and selective B–N, B–S, and B–Se couplings in the presence of N-heterocycles, imines, thioethers, thioamides, and selenium ethers. This protocol also facilitates both the late-stage modification of drugs and the synthesis of nido-carborane-based drug candidates for boron neutron capture therapy (BNCT).

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Section: Resultsmentioning

confidence: 99%

Photoinduced Selective B–H Activation of nido-Carboranes

Xu,

Zhang,

et al. 2024

J. Am. Chem. Soc.

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“…While main-group-species − -mediated B–H bond activation mainly involves 1,1-addition at a low-valent main-group species (such as carbenes, carbenoid species, and amidosilylenes), frustrated Lewis pairs (FLPs) , and boron-containing heterocycles , have also been reported for this utility. In addition, boranes may demonstrate reduced B–H BDE values when being complexed by Lewis bases (such as NHCs). , Consequently, NHC-complexed boranes have been employed as hydrogen atom donors via homolytic B–H cleavage. − Notably, nitrogen-centered radical-mediated B–H activation of icosahedral carboranes via hydrogen atom transfer (HAT) has recently been reported . This laboratory recently reported a cyclic (alkyl)(amino)carbene (CAAC)-stabilized dithiolene zwitterion ( 1 , in Scheme ), a new type of metal-free bifunctional molecular system which has been shown to activate ammonia via both single-electron-transfer (SET) and HAT processes .…”

Section: Introductionmentioning

confidence: 99%

From Carbene-Dithiolene Zwitterion Mediated B–H Bond Activation to BH₃·SMe₂-Assisted Boron–Boron Bond Formation

Wang,

Tran,

Lahm

et al. 2023

Organometallics

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The 1:1 reaction of the carbene-stabilized dithiolene zwitterion 1 with BH3·SMe2 gave the dithiolene-based hydroborane 2 and the doubly hydrogen-capped CAAC species 3 via hydride-coupled reverse electron transfer processes. The mechanism of this transformation was probed computationally using density functional theory. The subsequent 2:1 reaction of 2 with 1 resulted in 4 and 3, suggesting that 1 can mediate the B–H bond activation not only for BH3 but also for monohydroboranes. In the presence of BH3·SMe2, 2 was unexpectedly converted to the corresponding diborane(4) complex 5 through a dehydrocoupling reaction at an elevated temperature.

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“…The most important method for the formation of the closo - o -carborane cluster is the interaction of alkynes with decaborane (B 10 H 14 ). The closo - o -carborane derivatives are easily transformed into the corresponding nido -carboranes under the action of bases (metal alkoxides and hydroxides, primary and secondary amines), fluoride ion, and some other reagents. , At present, approaches to the functionalization of closo - and nido -carboranes as a result of catalytic activation of the B–H bond are being actively developed …”

Section: Introductionmentioning

confidence: 99%

Synthesis of Charge-Compensated nido-Carboranyl Derivatives of Sulfur-Containing Amino Acids and Biotin

Gruzdev,

Telegina,

Levit

et al. 2023

J. Org. Chem.

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A new group of charge-compensated nido-carboranyl derivatives of sulfur-containing amino acids and biotin has been synthesized in which the boron atom in position 9 or 10 of carborane is attached to a positively charged sulfur atom. The possibilities of obtaining symmetrical B(10)-substituted and asymmetric B(9)-substituted nido-carboranes were studied. Using the example of (S)-methionine and D-biotin derivatives, water-soluble S-substituted charge-compensated nido-carboranes with free functional groups were prepared. The results obtained open up prospects for the development of potential boron delivery agents for BNCT as well as new bioactive compounds containing a negatively charged nido-carboranyl fragment bearing a positive charge on the sulfur atom associated with the boron cluster.

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Direct B–H Functionalization of Icosahedral Carboranes via Hydrogen Atom Transfer

Cited by 26 publications

References 93 publications

Photoinduced Selective B–H Activation of nido-Carboranes

Photoinduced Selective B–H Activation of nido-Carboranes

From Carbene-Dithiolene Zwitterion Mediated B–H Bond Activation to BH₃·SMe₂-Assisted Boron–Boron Bond Formation

Synthesis of Charge-Compensated nido-Carboranyl Derivatives of Sulfur-Containing Amino Acids and Biotin

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Direct B–H Functionalization of Icosahedral Carboranes via Hydrogen Atom Transfer

Cited by 26 publications

References 93 publications

Photoinduced Selective B–H Activation of nido-Carboranes

Photoinduced Selective B–H Activation of nido-Carboranes

From Carbene-Dithiolene Zwitterion Mediated B–H Bond Activation to BH3·SMe2-Assisted Boron–Boron Bond Formation

Synthesis of Charge-Compensated nido-Carboranyl Derivatives of Sulfur-Containing Amino Acids and Biotin

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From Carbene-Dithiolene Zwitterion Mediated B–H Bond Activation to BH₃·SMe₂-Assisted Boron–Boron Bond Formation