Henry J. Hamann scite author profile

Ammonia-borane, shown previously to react with carboxylic acids under reflux to form primary amides, reduces acids to alcohols at room temperature in the presence of catalytic TiCl 4 . The process, which is tolerant of a variety of potentially reactive functional groups, including N-protected amino acids, can be employed for the selective reduction of acids in the presence of amides, nitriles and, to some extent, esters. Aliphatic acids can be selectively reduced in the presence of aromatic acids.

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Ammonia-borane as a Catalyst for the Direct Amidation of Carboxylic Acids

Ramachandran

Hamann

2021

Org. Lett.

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Ammonia-borane serves as an efficient substoichiometric (10%) precatalyst for the direct amidation of both aromatic and aliphatic carboxylic acids. In situ generation of amine-boranes precedes the amidation and, unlike the amidation with stoichiometric amine-boranes, this process is facile with 1 equiv of the acid. This methodology has high functional group tolerance and chromatography-free purification but is not amenable for esterification. The latter feature has been exploited to prepare hydroxyl-and thiol-containing amides.

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Amine-boranes as Dual-Purpose Reagents for Direct Amidation of Carboxylic Acids

2020

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Amine-boranes serve as dual-purpose reagents for direct amidation, activating aliphatic and aromatic carboxylic acids and, subsequently, delivering amines to provide the corresponding amides in up to 99% yields. Delivery of gaseous or low-boiling amines as their borane complexes provides a major advantage over existing methodologies. Utilizing amine-boranes containing borane incompatible functionalities allows for the preparation of functionalized amides. An intermolecular mechanism proceeding through a triacyloxyborane–amine complex is proposed.

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TiCl₄-Catalyzed Hydroboration of Ketones with Ammonia Borane

2022

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Investigation of a variety of Lewis acids for the hydroboration-hydrolysis (reduction) of ketones with amine-boranes has revealed that catalytic (10 mol %) titanium tetrachloride (TiCl4) in diethyl ether at room temperature immensely accelerates the reaction of ammonia borane. The product alcohols are produced in good to excellent yields within 30 min, even with ketones which typically requires 24 h or longer to reduce under uncatalyzed conditions. Several potentially reactive functionalities are tolerated, and substituted cycloalkanones are reduced diastereoselectively to the thermodynamic product. A deuterium labeling study and 11B NMR analysis of the reaction have been performed to verify the proposed hydroboration mechanism.

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Activation of sodium borohydride via carbonyl reduction for the synthesis of amine- and phosphine-boranes

2021

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Henry J. Hamann

A Safer Reduction of Carboxylic Acids with Titanium Catalysis

Ammonia-borane as a Catalyst for the Direct Amidation of Carboxylic Acids

Amine-boranes as Dual-Purpose Reagents for Direct Amidation of Carboxylic Acids

TiCl₄-Catalyzed Hydroboration of Ketones with Ammonia Borane

Activation of sodium borohydride via carbonyl reduction for the synthesis of amine- and phosphine-boranes

Contact Info

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Resources

About

Henry J. Hamann

A Safer Reduction of Carboxylic Acids with Titanium Catalysis

Ammonia-borane as a Catalyst for the Direct Amidation of Carboxylic Acids

Amine-boranes as Dual-Purpose Reagents for Direct Amidation of Carboxylic Acids

TiCl4-Catalyzed Hydroboration of Ketones with Ammonia Borane

Activation of sodium borohydride via carbonyl reduction for the synthesis of amine- and phosphine-boranes

Contact Info

Product

Resources

About

TiCl₄-Catalyzed Hydroboration of Ketones with Ammonia Borane