Jian Yang Cho scite author profile

Arylboron compounds have intriguing properties and are important building blocks for chemical synthesis. A family of Ir catalysts now enables the direct synthesis of arylboron compounds from aromatic hydrocarbons and boranes under "solventless" conditions. The Ir catalysts are highly selective for C-H activation and do not interfere with subsequent in situ transformations, including Pd-mediated cross-couplings with aryl halides. By virtue of their favorable activities and exceptional selectivities, these Ir catalysts impart the synthetic versatility of arylboron reagents to C-H bonds in aromatic and heteroaromatic hydrocarbons.

show abstract

Regioselective Aromatic Borylation in an Inert Solvent

Tse

2001

View full text Add to dashboard Cite

[reaction: see text]. A protocol for performing Rh catalyzed aromatic borylations in cyclohexane has been devised. Borylation at the 5-position of several 1,3-substituted aromatic species ranging from electron-rich (1,3-(NMe(2))(2)C(6)H(4)) to electron-deficient (1,3-(CF(3))(2)C(6)H(4)) yields the corresponding aryl boronate esters. Veratrole was selectively borylated at the 4-position, thus extending regioselectivity to 1,2-substituted benzenes. Selective borylation at the 3-position of an N-protected pyrrole has also been demonstrated, providing a valuable reagent for cross-coupling reactions in a single step.

show abstract

A Mechanistic Dichotomy in the Reactions of Cp₂M(CH₂CHMe) (M = Nb, Ta) with Catecholborane: Generation of Boryl Complexes by Propylene Hydroboration and Propylene Loss

et al. 1998

View full text Add to dashboard Cite

A mixture of endo- and exo-Cp2TaH(CH2CHMe) (1a) and catecholborane (HBCat, Cat = 1,2-O2C6H4) reacted to give endo-Cp2TaH2(BCat) (2a) and n-PrBCat as the major products. Small quantities of exo-2a are also formed during the reaction. When the reaction was monitored by 1H NMR, the resonances for endo-1a were diminished relative to exo-1a, and eventually all of the olefin complex was consumed. The analogous reaction employing DBCat led to deuterium incorporation at the α-methylene position of n-PrBCat and the deuteride positions of 2a. The alkylborane and deuteride resonances in the 2H NMR spectrum integrated in a 40:60 ratio. 1H NMR spectra indicate the α-methylene integration in n-PrBCat-d 0 - 1 is depleted by 50% of its normal value. A mechanism involving borane attack on a propylidene hydride intermediate is invoked to account for the labeling results. A mixture of endo- and exo-Cp2NbH(CH2CHMe) (1b) reacts with HBCat to generate n-PrBCat, propane, propylene, Cp2NbH2BCat (2b), and Cp2NbH(BCat)2 (3). The Markovnikov hydroboration product, i-PrBCat was not detected. Cp2NbH(BCat)2 was isolated as lemon-yellow crystals in 21% yield by fractional crystallization from toluene. 1H NMR indicates inequivalent boryl environments in compound 3, and two distinct boron resonances at δ 65 (Δν 1/2 = 250 Hz) and δ 60 (Δν 1/2 = 210 Hz) were resolved in the 11B NMR spectrum (C6D6, 60 °C). 1H{11B} spectra and isotopic labeling experiments indicated coupling between the niobium hydride and the 11B resonance at δ 60. Reaction of 1b with DBCat gave 2b-d 2, 3-d, propane-d 0 - 2 and n-PrBCat-d 0 - 2. The deuteride resonance in 3-d is shifted to higher field by 180 ppb relative to the hydride shift in compound 3. The chemical shift of the hydride resonance in compound 3 was temperature independent between −80 and 25 °C (THF-d 8).Compound 3 was crystallized as a yellow acetone solvate, and its molecular structure was determined. The Nb center lies on a C 2 axis, and the chemically inequivalent boryl groups are symmetry related. An Nb−B distance of 2.29(1) Å was found for compound 3, and the hydride position could not be reliably located. At low temperature the reaction between exo- and endo-1b with HBCat generates a persistent intermediate, 4, as the major Cp-containing component. 1H NMR spectra indicated two new hydride resonances reaction δ −4.40 and δ −6.00, and 1H{11B} spectra demonstrated that the resonance at δ −6.00 is coupled to boron. A NOESY spectrum revealed a cross-peak between the two hydride positions of intermediate 4. Generation of 4-d 1 from DBCat and exo- and endo-1b proved that the hydride resonance at δ −6.00 arises from the borane. The deuteride resonance in 4-d is shifted to higher field by 210 ppb relative to the hydride shift in compound 4. A modest temperature dependence for the hydride chemical shifts was observed between −50 and 50 °C (toluene-d 8). Intermediate 4 isomerizes to endo-2b, and reacts with CO (100 psi at 25 °C) to give the carbonyl compound, Cp2NbH(CO), and HBCat. Small quantities of intermediate...

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.

Jian Yang Cho

Remarkably Selective Iridium Catalysts for the Elaboration of Aromatic C-H Bonds

Regioselective Aromatic Borylation in an Inert Solvent

A Mechanistic Dichotomy in the Reactions of Cp₂M(CH₂CHMe) (M = Nb, Ta) with Catecholborane: Generation of Boryl Complexes by Propylene Hydroboration and Propylene Loss

Contact Info

Product

Resources

About

Jian Yang Cho

Remarkably Selective Iridium Catalysts for the Elaboration of Aromatic C-H Bonds

Regioselective Aromatic Borylation in an Inert Solvent

A Mechanistic Dichotomy in the Reactions of Cp2M(CH2CHMe) (M = Nb, Ta) with Catecholborane: Generation of Boryl Complexes by Propylene Hydroboration and Propylene Loss

Contact Info

Product

Resources

About

A Mechanistic Dichotomy in the Reactions of Cp₂M(CH₂CHMe) (M = Nb, Ta) with Catecholborane: Generation of Boryl Complexes by Propylene Hydroboration and Propylene Loss