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1. Palladium Catalysis Enables Benzylation of α,α‐Difluoroketone Enolates

   https://doi.org/10.1002/ange.201604149  

   Yang, Ming‐Hsiu ; Hunt, Jordan R. ; Sharifi, Niusha ; Altman, Ryan A. ( June 2016 , Angewandte Chemie)

   A palladium‐catalyzed decarboxylative benzylation reaction of α,α‐difluoroketone enolates is reported, in which the key C(α)−C(sp³) bond is generated by reductive elimination from a palladium intermediate. The transformation provides convergent access to α‐benzyl‐α,α‐difluoroketone‐based products, and should be useful for accessing biological probes.

    

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2. Generation and Application of Homoallylic α,α‐Diboryl Radicals via Diboron‐Promoted Ring‐Opening of Vinyl Cyclopropanes: cis ‐Diastereoselective Borylative Cycloaddition**

   https://doi.org/10.1002/chem.202303175  

   Vyas, Het ; Gangani, Ashvin J. ; Mini, Aiswarya ; Lin, Shengjia ; Chu, Jia‐Min ; Agee, Caitlyn O. ; Gabriel, Justin ; Williamson, R. Thomas ; Zhang, Yong ; Sharma, Abhishek ( November 2023 , Chemistry – A European Journal)

   Carbon‐centered radicals stabilized by adjacent boron atoms are underexplored reaction intermediates in organic synthesis. This study reports the development of vinyl cyclopropyl diborons (VCPDBs) as a versatile source of previously unknown homoallylic α,α‐diboryl radicals via thiyl radical catalyzed diboron‐directed ring opening. These diboryl stabilized radicals underwent smooth [3+2] cycloaddition with a variety of olefins to provide diboryl cyclopentanes in good to excellent diastereoselectivity. In contrast to thetrans‐diastereoselectivity observed with most of the dicarbonyl activated VCPs, the cycloaddition of VCPDBs showed a remarkable preference for formation ofcis‐cyclopentane diastereomer which was confirmed by quantitative NOE and 2D NOESY studies. Thecis‐stereochemistry of cyclopentane products enabled a concise intramolecular Heck reaction approach to rare tricyclic cyclopentanoid framework containing the diboron group. The mild reaction conditions also allowed a one‐pot VCP ring‐opening, cycloaddition‐oxidation sequence to afford disubstituted cyclopentanones. Control experiments and DFT analysis of reaction mechanism support a radical mediated pathway and provide a rationale for the observed diastereoselectivity. To the authors’ knowledge, these are the first examples of the use of geminal diboryl group as an activator of VCP ring opening and cycloaddition reaction of α‐boryl radicals.

    

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3. Spindle nodal chain in three-dimensional α′ boron

   https://doi.org/10.1039/c8cp03874k  

   Gao, Yan ; Xie, Yuee ; Chen, Yuanping ; Gu, Jinxing ; Chen, Zhongfang ( January 2018 , Physical Chemistry Chemical Physics)

   Topological metals/semimetals (TMs) have emerged as a new frontier in the field of quantum materials. A few two-dimensional (2D) boron sheets have been suggested as Dirac materials, however, to date TMs made of three-dimensional (3D) boron structures have not been found. Herein, by means of systematic first principles computations, we discovered that a rather stable 3D boron allotrope, namely 3D-α′ boron, is a nodal-chain semimetal. In momentum space, six nodal lines and rings contact each other and form a novel spindle nodal chain. This 3D-α′ boron can be formed by stacking 2D wiggle α′ boron sheets, which are also nodal-ring semimetals. In addition, our chemical bond analysis revealed that the topological properties of the 3D and 2D boron structures are related to the π bonds between boron atoms, however, the bonding characteristics are different from those in the 2D and 3D carbon structures. 

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4. Synthesis of unstrained Criegee intermediates: inverse α-effect and other protective stereoelectronic forces can stop Baeyer–Villiger rearrangement of γ-hydroperoxy-γ-peroxylactones

   https://doi.org/10.1039/D0SC01025A  

   Vil', Vera A. ; Barsegyan, Yana A. ; Kuhn, Leah ; Ekimova, Maria V. ; Semenov, Egor A. ; Korlyukov, Alexander A. ; Terent'ev, Alexander O. ; Alabugin, Igor V. ( May 2020 , Chemical Science)

   How far can we push the limits in removing stereoelectronic protection from an unstable intermediate? We address this question by exploring the interplay between the primary and secondary stereoelectronic effects in the Baeyer–Villiger (BV) rearrangement by experimental and computational studies of γ-OR-substituted γ-peroxylactones, the previously elusive non-strained Criegee intermediates (CI). These new cyclic peroxides were synthesized by the peroxidation of γ-ketoesters followed by in situ cyclization using a BF 3 ·Et 2 O/H 2 O 2 system. Although the primary effect (alignment of the migrating C–R m bond with the breaking O–O bond) is active in the 6-membered ring, weakening of the secondary effect (donation from the OR lone pair to the breaking C–R m bond) provides sufficient kinetic stabilization to allow the formation and isolation of stable γ-hydroperoxy-γ-peroxylactones with a methyl-substituent in the C6-position. Furthermore, supplementary protection is also provided by reactant stabilization originating from two new stereoelectronic factors, both identified and quantified for the first time in the present work. First, an unexpected boat preference in the γ-hydroperoxy-γ-peroxylactones weakens the primary stereoelectronic effects and introduces a ∼2 kcal mol −1 Curtin–Hammett penalty for reacquiring the more reactive chair conformation. Second, activation of the secondary stereoelectronic effect in the TS comes with a ∼2–3 kcal mol −1 penalty for giving up the exo-anomeric stabilization in the 6-membered Criegee intermediate. Together, the three new stereoelectronic factors (inverse α-effect, misalignment of reacting bonds in the boat conformation, and the exo-anomeric effect) illustrate the richness of stereoelectronic patterns in peroxide chemistry and provide experimentally significant kinetic stabilization to this new class of bisperoxides. Furthermore, mild reduction of γ-hydroperoxy-γ-peroxylactone with Ph 3 P produced an isolable γ-hydroxy-γ-peroxylactone, the first example of a structurally unencumbered CI where neither the primary nor the secondary stereoelectronic effect are impeded. Although this compound is relatively unstable, it does not undergo the BV reaction and instead follows a new mode of reactivity for the CI – a ring-opening process. 

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5. MIDA‐ and TIDA‐Boronates Stabilize α‐Radicals Through B−N Hyperconjugation

   https://doi.org/10.1002/ange.202309566  

   LaPorte, Antonio J. ; Feldner, Jack E. ; Spies, Jan C. ; Maher, Tom J. ; Burke, Martin D. ( August 2023 , Angewandte Chemie)

   Multifunctional organoboron compounds increasingly enable the simple generation of complex, Csp³‐rich small molecules. The ability of boron‐containing functional groups to modify the reactivity of α‐radicals has also enabled a myriad of chemical reactions. Boronic esters with vacant p‐orbitals have a significant stabilizing effect on α‐radicals due to delocalization of spin density into the empty orbital. The effect of coordinatively saturated derivatives, such as N‐methyliminodiacetic acid (MIDA) boronates and counterparts, remains less clear. Herein, we demonstrate that coordinatively saturated MIDA and TIDA boronates stabilize secondary alkyl α‐radicals via σ_B‐Nhyperconjugation in a manner that allows site‐selective C−H bromination. DFT calculated radical stabilization energies and spin density maps as well as LED NMR kinetic analysis of photochemical bromination rates of different boronic esters further these findings. This work clarifies that the α‐radical stabilizing effect of boronic esters does not only proceed via delocalization of radical character into vacant boron p‐orbitals, but that hyperconjugation of tetrahedral boron‐containing functional groups and their ligand electron delocalizing ability also play a critical role. These findings establish boron ligands as a useful dial for tuning reactivity at the α‐carbon.

    

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