1H NMR studies of proton transfer and σ-complex formation in the reactions of N-substituted picramides with oxygen and nitrogen bases

## Abstract Substituted phenol–trimethylamine __N__‐oxide (TMAO) systems were studied. The ^1^H chemical shift of the hydrogen‐bonded proton first increases with decreasing p__K__~a~ of the phenols and, after a sharp maximum, it then decreases. Thus, the shielding of the hydrogen‐bonded proton by t

## Abstract Eleven substituted 2‐diethylaminomethylphenol __N__‐oxides were studied in CDCl~3~ solutions by ^1^H and ^13^C NMR spectroscopy. The ^1^H chemical shifts of the intramolecular hydrogen‐bonded proton and the Δ~14~ values obtained from the ^13^C signals were considered as a function of th

The "N NMR chemical shifts of eight substituted pyridine N-oxides (B) and their complexes (AHB) with methanol and dichloroacetic and trifluoromethanesulfonic acids were measured in chloroform-d at the natural abundance level. The measured chemical shifts are strongly affected by substituents, hydrog

Reactions of morpholine in dimethyl sulphoxide at unsubstituted ring positions of 1,3,5-trinitrobenzene, and phenyl 2,4,64rinitrophenyl ether, yield anionic a-adducts via zwitterionic intermediates. Reactions at the 1- position of phenyl 2,4,64rinitrophenyl ether, phenyl 2,4-dinitronaphthyl ether, a

Binuclear lanthanide(III)-silver(I) f3-diketonate chelates are effective N M R shift and relaxation reagents for substrates containing one or two multiply bonded nitrogen atoms, despite the fact that some of the substrates are able to react with lanthanide chelates alone. The silver cation is bonded

## Abstract The NHċbondX (X = N,O,S) intramolecular hydrogen bond in the series of 2(2′‐heteroaryl)pyrroles and their trifluoroacetyl derivatives is examined by the ^1^H, ^13^C, ^15^N spectroscopy and density functional theory (DFT) calculations. The influence of the hydrogen bond on coupling and