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Selective and clean synthesis of aminoalkyl-H-phosphinic acids from hypophosphorous acid by phospha-Mannich reaction

Publikace na Přírodovědecká fakulta |
2020

Tento text není v aktuálním jazyce dostupný. Zobrazuje se verze "en".Abstrakt

Aminoalkyl-H-phosphinic acids, also called aminoalkylphosphonous acids, are investigated as biologically active analogues of carboxylic amino acids and/or as valuable intermediates for synthesis of other aminoalkylphosphorus acids. Their synthesis has been mostly accomplished by phospha-Mannich reaction of a P-H precursor, an aldehyde and an amine.

The reaction is rarely clean and high-yielding. Here, reaction of H(3)PO(2)with secondary amines and formaldehyde in wet AcOH led to aminomethyl-H-phosphinic acids in nearly quantitative yields and with almost no by-products.

Surprisingly, the reaction outcome depended on the basicity of the amines. Amines with pK(a)> 7-8 gave the desired products.

For less basic amines, reductiveN-methylation coupled with oxidation of H(3)PO(2)to H(3)PO(3)became a relevant side reaction. Primary amines reacted less clearly and amino-bis(methyl-H-phosphinic acids) were obtained only for very basic amines.

Reaction yields with higher aldehydes were lower. Unique carboxylic-phosphinic-phosphonic acids as well as poly(H-phosphinic acids) derived from polyamines were obtained.

Synthetic usefulness of the aminoalkyl-H-phosphinic was illustrated in P-H bond oxidation and its addition to double bonds, and in selective amine deprotection. Compounds with an ethylene-diamine fragment,e.g.most common polyazamacrocycles, are not suitable substrates.

The X-ray solid-state structures of seventeen aminoalkyl-phosphinic acids were determined. In the reaction mechanism,N-hydroxyalkyl species R2NCH2OH and [R2N(CH2OH)(2)](+), probably stabilized as acetate esters, are suggested as the reactive intermediates.

This mechanism is an alternative one to the known phospha-Mannich reaction mechanisms. The conditions can be utilized in syntheses of various aminoalkylphosphorus compounds.