Darius J. Faizi scite author profile

For nearly 70 years, the addition of boron–X σ bonds to carbon–carbon multiple bonds has been employed in the preparation of organoboron reagents. However, the significantly higher strength of boron–oxygen bonds has thus far precluded their activation for addition, preventing a direct route to access a potentially valuable class of oxygen-containing organoboron reagents for divergent synthesis. We herein report the realization of an alkoxyboration reaction, the addition of boron–oxygen σ bonds to alkynes. Functionalized O-heterocyclic boronic acid derivatives are produced using this transformation, which is mild and exhibits broad functional group compatibility. Our results demonstrate activation of this boron–O σ bond using a gold catalysis strategy that is fundamentally different from that used previously for other boron addition reactions.

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Catalyst-Free Synthesis of Borylated Lactones from Esters via Electrophilic Oxyboration

Faizi

et al. 2016

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A catalyst-free oxyboration reaction of alkynes is developed. The resulting borylated isocoumarins and 2-pyrones are isolated as boronic acids, pinacolboronate esters, or potassium organotrifluoroborate salts, providing a variety of bench-stable organoboron building blocks for downstream functionalization. This method has functional group compatibility, is scalable, and proceeds with readily available materials: B-chlorocatecholborane and methyl esters. Mechanistic studies indicate that the B-chlorocatecholborane acts as a carbophilic Lewis acid toward the alkyne, providing a mechanistically distinct pathway for oxyboration that avoids B–O σ bond formation and enables this catalyst-free route.

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Catalyst‐Free Formal Thioboration to Synthesize Borylated Benzothiophenes and Dihydrothiophenes

et al. 2016

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The first ring-forming thioboration reaction of C–C π bonds is reported. This catalyst-free method proceeds in the presence of a commercially available external electrophilic boron source (B-chlorocatecholborane) in good to high yields. The method is scalable and tolerates a variety of functional groups that are intolerant of other major borylation methods. The resulting borylated benzothiophenes participate in a variety of in situ derivatization reactions, showcasing that these borylated intermediates do not need to be isolated prior to downstream functionalization. This methodology has been extended to the synthesis of borylated dihydrothiophenes. Mechanistic experiments suggest that the operative mechanistic pathway is through boron-induced activation of the alkyne followed by electrophilic cyclization, as opposed to S–B σ bond formation, providing a mechanistically distinct pathway to the thioboration of C–C π bonds.

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Studies on the Regioselective Nucleophilic Aromatic Substitution (S_NAr) Reaction of 2-Substituted 3,5-Dichloropyrazines

Scales

Johnson

et al. 2013

Org. Lett.

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Differences in regioselectivity were observed during the S(N)Ar reaction of amines with unsymmetrical 3,5-dichloropyrazines. This study revealed that when the 2-position of the pyrazine was occupied with an electron-withdrawing group (EWG), nucleophilic attack occurred preferentially at the 5-position. When the 2-position was substituted with an electron-donating group (EDG), nucleophilic attack occurred preferentially at the 3-position. These results are reported along with a computational rationale for the experimental observations based on the Fukui index at the reacting centers.

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Darius J. Faizi

Alkoxyboration: Ring-Closing Addition of B–O σ Bonds across Alkynes

Catalyst-Free Synthesis of Borylated Lactones from Esters via Electrophilic Oxyboration

Catalyst‐Free Formal Thioboration to Synthesize Borylated Benzothiophenes and Dihydrothiophenes

Studies on the Regioselective Nucleophilic Aromatic Substitution (S_NAr) Reaction of 2-Substituted 3,5-Dichloropyrazines

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Darius J. Faizi

Alkoxyboration: Ring-Closing Addition of B–O σ Bonds across Alkynes

Catalyst-Free Synthesis of Borylated Lactones from Esters via Electrophilic Oxyboration

Catalyst‐Free Formal Thioboration to Synthesize Borylated Benzothiophenes and Dihydrothiophenes

Studies on the Regioselective Nucleophilic Aromatic Substitution (SNAr) Reaction of 2-Substituted 3,5-Dichloropyrazines

Contact Info

Product

Resources

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Studies on the Regioselective Nucleophilic Aromatic Substitution (S_NAr) Reaction of 2-Substituted 3,5-Dichloropyrazines