Iron-Catalyzed Borylation of Alkyl, Allyl, and Aryl Halides: Isolation of an Iron(I) Boryl Complex

Bedford, Robin B.; Brenner, Peter; Carter, Emma; Gallagher, Timothy; Murphy, D. M.; Pye, Dominic R.

doi:10.1021/om500847j

Cited by 117 publications

(76 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…These data are strongly reminiscent of the chemical shifts reported for the species formed, though not isolated, by the addition of tert -BuLi to B 2 pin 2 in THF solution ( δ 39.1, 6.4 p.p.m. )47. Crystallographic analysis confirmed compound 9 to be a magnesium complex of a [pinB-Bpin( n- Bu)] − anion coordinated to Mg(1) through the O(1) and O(3) centres of the two pinacolato boron moieties (Fig.…”

Section: Resultsmentioning

confidence: 94%

Easy access to nucleophilic boron through diborane to magnesium boryl metathesis

et al. 2017

View full text Add to dashboard Cite

Organoboranes are some of the most synthetically valuable and widely used intermediates in organic and pharmaceutical chemistry. Their synthesis, however, is limited by the behaviour of common boron starting materials as archetypal Lewis acids such that common routes to organoboranes rely on the reactivity of boron as an electrophile. While the realization of convenient sources of nucleophilic boryl anions would open up a wealth of opportunity for the development of new routes to organoboranes, the synthesis of current candidates is generally limited by a need for highly reducing reaction conditions. Here, we report a simple synthesis of a magnesium boryl through the heterolytic activation of the B–B bond of bis(pinacolato)diboron, which is achieved by treatment of an easily generated magnesium diboranate complex with 4-dimethylaminopyridine. The magnesium boryl is shown to act as an unambiguous nucleophile through its reactions with iodomethane, benzophenone and N,N′-di-isopropyl carbodiimide and by density functional theory.

show abstract

Section: Resultsmentioning

confidence: 94%

Easy access to nucleophilic boron through diborane to magnesium boryl metathesis

et al. 2017

View full text Add to dashboard Cite

show abstract

“…[6] Since B(C 6 F 5 ) 3 can activate alkenes and alkynes even in the presence of certain oxo functionalities,the ability of B(C 6 F 5 ) 3 to trigger the 1,2-boryl migration was explored. The successful formation of [2] À was indicated by 11 BNMR spectroscopy,w hich showed two new resonances:o ne at 37.3 ppm (three-coordinate boron) and the other at 4.8 ppm (four-coordinate boron), analogous to the spectrum reported for [(Ph)B 2 Pin 2 ] À (39.2 and 4.0 ppm, respectively).…”

mentioning

confidence: 99%

Selective Boryl‐Anion Migration in a Vinyl sp²−sp³ Diborane Induced by Soft Borane Lewis Acids

et al. 2018

View full text Add to dashboard Cite

An intramolecular 1,2-boryl-anion migration from boron to carbon has been achieved by selective activation of the p system in [(vinyl)B 2 Pin 2 )] À using "soft" BR 3 electrophiles (BR 3 = BPh 3 or 9-aryl-BBN). The soft character is key to ensure 1,2-migration proceeds instead of oxygen coordination/B À Oactivation. The BR 3 -induced 1,2-boryl-anion migration represents at riple borylation of av inyl Grignardr eagent using only B 2 Pin 2 and BR 3 and forms differentially protected 1,1,2-triborylated alkanes.N otably,b yi ncreasing the steric bulk at the b position of the vinyl Grignardr eagent used to activate B 2 Pin 2 ,1 ,2-boryl-anion migration can be suppressed in favor of intermolecular {BPin} À transfer to BPh 3 ,t hus enabling simple access to unsymmetrical sp 2 À sp 3 diboranes.

show abstract

“…The EPR spectrum of this complex (Fig. 2g) was broadened in comparison to the spectra of the related [FeX(dpbz) 2 ] (X = Cl, Br, tol) complexes and was lacking in resolvable hyperfine structure [42]. Despite DFT calculations predicting that most (* 87 %) of the electron spin density was located primarily on the Fe atom, the broad line-width was explained as a result of superhyperfine and quadrupolar coupling to 31 P and 10,11 B respectively.…”

Section: Iron (I) Catalyzed Cross-couplingmentioning

confidence: 93%

The Role of Low Valent Transition Metal Complexes in Homogeneous Catalysis: An EPR Investigation

Carter

Murphy

2015

Top Catal

Self Cite

View full text Add to dashboard Cite

Iron-Catalyzed Borylation of Alkyl, Allyl, and Aryl Halides: Isolation of an Iron(I) Boryl Complex

Abstract: Activation of B2pin2 with tBuLi facilitates the Fe-catalyzed borylation of alkyl, allyl, benzyl, and aryl halides via the formation of Li[B2pin2(tBu)] (1). The reaction of 1 with a representative iron phosphine precatalyst generates the unique iron(I) boryl complex [Fe(Bpin)(dpbz)2] (2).

Cited by 117 publications

References 24 publications

Easy access to nucleophilic boron through diborane to magnesium boryl metathesis

Easy access to nucleophilic boron through diborane to magnesium boryl metathesis

Selective Boryl‐Anion Migration in a Vinyl sp²−sp³ Diborane Induced by Soft Borane Lewis Acids

The Role of Low Valent Transition Metal Complexes in Homogeneous Catalysis: An EPR Investigation

Contact Info

Product

Resources

About

Iron-Catalyzed Borylation of Alkyl, Allyl, and Aryl Halides: Isolation of an Iron(I) Boryl Complex

Abstract: Activation of B2pin2 with tBuLi facilitates the Fe-catalyzed borylation of alkyl, allyl, benzyl, and aryl halides via the formation of Li[B2pin2(tBu)] (1). The reaction of 1 with a representative iron phosphine precatalyst generates the unique iron(I) boryl complex [Fe(Bpin)(dpbz)2] (2).

Cited by 117 publications

References 24 publications

Easy access to nucleophilic boron through diborane to magnesium boryl metathesis

Easy access to nucleophilic boron through diborane to magnesium boryl metathesis

Selective Boryl‐Anion Migration in a Vinyl sp2−sp3 Diborane Induced by Soft Borane Lewis Acids

The Role of Low Valent Transition Metal Complexes in Homogeneous Catalysis: An EPR Investigation

Contact Info

Product

Resources

About

Selective Boryl‐Anion Migration in a Vinyl sp²−sp³ Diborane Induced by Soft Borane Lewis Acids