EXTRACTION BY N,N,N',N-TETRAALKYL -2 ALKYL PROPANE -1,3 DIAMIDES. I. H2O, HNO3and HClO4

Abstract

The extracting properties of substituted diamides were investigated. The auto-association of N,N'-dimethyl dibutyl tetradecyl malonamide (DMDBTDMA) : (C₄H₉(CH₃)NCO)₂CHC₁₄H₂₉ in benzene and in TPH (aliphatic hydrocarbon) was shown by NMR using mass-action model. The degree of aggregation depends on the diluent, the diamide concentration and the acidity. The extraction of HNO₃ and HClO₄ was investigated by distribution measurements and IR spectroscopy. HNO3 extraction is explained by the competing formation of four adducts : whose the equilibrium constants for 0,72 mol.l^-1 amide in TPH are 0.167, 0.215, 5.19-10^-3 and 3.7-10^-4, respectively, on a molal scale. HClO₄ is extracted by a reaction involving the competing formation of the two adducts . Their equilibrium constants for 0.697 mol.1^-1 amide in TPH are 0.649 and 1.71, respectively, on a molal scale. V(C=O) IR absorption shifts indicate that in are linked by hydrogen bonds, whereas in is transferred from one molecule of acid to one C=O of the DMDBTDMA. The different behavior of HClO₄ and HNO₃ can be attributed to their different acid strength, HClO₄ being a much stronger acid than HNO₃. The proton transfer from HNO₃ to the diamide depends on the dielectric constant of the organic medium, the higher values being favourable to ion-pair formation. Oxalic acid is only weakly extracted by DMDBTDMA.