Highly Chemoselective Hydroboration of Alkynes and Nitriles Catalyzed by Group 4 Metal Amidophosphine–Borane Complexes

Bhattacharjee, Jayeeta; Harinath, Adimulam; Bano, Kulsum; Panda, Tarun K.

doi:10.1021/acsomega.9b03598

Cited by 41 publications

(40 citation statements)

References 59 publications

(65 reference statements)

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“…The 3d transition metals are earth‐abundant and demonstrate less toxic behavior, which makes them one of the prior choices for catalysis. In this regard, various first‐row transition metals are also used as efficient catalysts in syn ‐selective hydroboration, for instance, Ti, [48,49] Mn, [50] Fe, [51–58] Co, [59–61] Ni, [62] Cu, [63–77] and Zn [78] …”

Section: Syn‐hydroboration Of Alkynesmentioning

confidence: 99%

Overview of Regioselective and Stereoselective Catalytic Hydroboration of Alkynes

2021

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Hydroboration of alkynes is of special interest to researchers since it is the most straightforward process for the synthesis of highly important vinylborane synthetic intermediate compounds. It is significant in terms of both regioselectivity and stereoselectivity, since several positional isomers are formed during the process of hydroboration. Given the importance of this class of compounds, an extensive study has been carried out regarding catalytic condition development and detailed mechanistic studies for selectively obtaining a single isomer. This review comprehensively summarizes both the regioselective and stereoselective catalytic hydroboration of alkynes. It is aimed at giving readers accurate knowledge of the catalytic systems available for the hydroboration of certain alkynes. We anticipate that this inclusive review will encourage researchers to explore more new types of catalytic systems to achieve the remarkable process of hydroboration of alkynes.

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Section: Syn‐hydroboration Of Alkynesmentioning

confidence: 99%

Overview of Regioselective and Stereoselective Catalytic Hydroboration of Alkynes

2021

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“…Slightly improved yields of N,N‐diborylamines and higher reaction rates have been reported by Panda et al. in 2020 for hydroboration of nitriles with HBPin, catalyzed by Ti(IV) amide 5 (Scheme ) . Similarly with 4 ‐catalyzed transformations (Scheme ), the reactions were performed at 60 °C under solvent‐free conditions.…”

Section: Transition Metal Catalystsmentioning

confidence: 91%

“…[19,20] During the last decade, since the discovery of Mo-catalyzed dihydroboration of nitriles, [19,20] a number of research publications concerning other catalytic systems have appeared in the literature, with the vast majority of developments being accomplished in the area of transition metal catalysis. The newly developed methods mostly rely on Ru [22,29,30] and Co [21,23,31,32] catalysts, with a handful of examples using Ti, [33,34] Mn, [35] Fe [36] and Ni. [37] With regards to f-block elements, only two reports on using Er, Y, Dy, Gd [38] and Th [39] systems in dihydroboration of nitriles have been disclosed.…”

Section: Transition Metal Catalysts 21 Early Attempts: Mo-catalyzedmentioning

confidence: 99%

“…Slightly improved yields of N,N-diborylamines and higher reaction rates have been reported by Panda et al in 2020 for hydroboration of nitriles with HBPin, catalyzed by Ti(IV) amide 5 (Scheme 4). [34] Similarly with 4-catalyzed transformations (Scheme 3), the reactions were performed at 60°C under solvent-free conditions. Compared to 4-catalyzed hydroboration, the catalyst loading was reduced from 10 to 3 mol% and excellent conversions of nitriles were achieved within less than 10 hours.…”

Section: Early D-block Metal Catalystsmentioning

confidence: 99%

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Catalytic Nitrile Hydroboration: A Route to N,N‐Diborylamines and Uses Thereof

Hayrapetyan

Khalimon

2020

Chemistry An Asian Journal

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Catalytic reduction of nitriles is considered as an attractive and atom‐economical route to a diversity of synthetically valuable primary amines. Compared to other methods, dihydroboration approach has been developed relatively recently but has already attracted the attention of many research groups due to reasonably mild reaction conditions, selectivity control and the access to N,N‐diborylamines, which emerged as powerful reagents for C−N bond forming reactions. Early developments in catalytic dihydroboration of nitriles implied precious metal catalysts along with harsh conditions and prolonged reaction times, whereas recent advances mostly rely on base and main group metal catalytic systems with significantly improved profiles. This minireview aims to provide an overview of advances and challenges of dihydroboration of nitriles with d‐, f‐ and main group metal catalysts. Mechanistic features of different catalytic systems, functional group tolerance and scope of the methods are also presented. The synthetic utility of N,N‐diborylamies, beyond simple protodeborylation, is discussed in the aspect of N‐arylation, imine and amide synthesis.

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“…[7] The hydroboration catalyzed by well-defined transition metal catalysts is particularly prevalent. Numerous transition metal complexes involving Mo, [8] Fe, [9] Co, [10] Ru, [11] Th, [12] Hf [13] , Ti, [14] Zn, [15] and Mn [16] have exhibited outstanding catalytic activity, and a variety of valuable organoboranes are formed. Besides, the Lewis acid/Lewis acid-base pairs synthesized by main group catalysts based on Mg [17] and Al [3b,18] have achieved great success in the hydroboration of nitriles with high efficiency.…”

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confidence: 99%

Sodium as High‐efficient Catalyst in Hydroboration of Unsaturated Compounds

Yan

et al. 2020

Asian J Org Chem

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The catalysts used to catalyze the hydroboration of nitriles or carbodiimides usually have some disadvantages such as complex structure, high cost, large pollution of environment and so on. It is an important development direction to use the main group metals instead of the transition metals to reduce the costs and realize green catalysis. In this paper, using NaH or NaOH as a catalyst, an efficient reaction of nitrile or carbodiimide with pinacol borane (HBPin) has been achieved. It was found that 3.5 mol% of NaH participated in the hydroboration reaction in a simple and effective method under slight solvent-free circumstances. In addition, intermolecular chemoselectivity hydroboration of nitrile and substrates with different functional groups was also investigated by employing three different catalysts. This reaction uses the inorganic alkali with simple structure, commercially available and low cost to synthesize organoborane compounds, which provides ideas for industrial development.

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Highly Chemoselective Hydroboration of Alkynes and Nitriles Catalyzed by Group 4 Metal Amidophosphine–Borane Complexes

Cited by 41 publications

References 59 publications

Overview of Regioselective and Stereoselective Catalytic Hydroboration of Alkynes

Overview of Regioselective and Stereoselective Catalytic Hydroboration of Alkynes

Catalytic Nitrile Hydroboration: A Route to N,N‐Diborylamines and Uses Thereof

Sodium as High‐efficient Catalyst in Hydroboration of Unsaturated Compounds

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