Abstract
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 H3PO2 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 pKa > 7–8 gave the desired products. For less basic amines, reductive N-methylation coupled with oxidation of H3PO2 to H3PO3 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.
Highlights
Phosphorus acid analogues of common amino acids have been studied for a long time.[1,2,3,4] Within the compound family, the aminoalkylphosphonic acids are more frequently investigated than the others and some of them, e.g. glyphosate, are well known
Oxidation of H3PO2 to H3PO3 was not detectable in wet AcOH and, reductive N-methylation is efficiently suppressed under these reaction conditions
The main by-products observed in the reactions are (i) N-alkylated amines, (ii) (1-hydroxyalkyl)phosphinic acids and/or (iii) phosphonic acids
Summary
Phosphorus acid analogues of common amino acids have been studied for a long time.[1,2,3,4] Within the compound family, the aminoalkylphosphonic acids are more frequently investigated than the others and some of them, e.g. glyphosate, are well known. Syntheses of the latter compounds have been the least studied among all kinds of aminoalkylphosphorus acids[5] they are the most suitable precursors in syntheses of the (unsymmetrical) phosphinic acids through further substitution of the P–H bond[6,7,8,9,10] or can be used for synthesis of phosphonic acids by oxidation of the P–H bond to P–OH bond.[11,12,13,14]
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