Multinuclear magnetic resonance studies of fluoronitroanilines

## Abstract ^14^N NMR studies were carried out for a series of mononuclear and dinuclear vanadium complexes with different types of nitrogen ligands (terminal and µ‐imido, amido, nitrido, amine). Some complexes containing ancillary phosphine moieties were also characterized by ^31^P NMR spectroscop

in the octahedral layer (4, 5). This gives rise to two types The structure at the liquid/solid interface of synthetic saponites of counterions as confirmed recently by Monte-Carlo calcuis monitored by NMR methods. These results are compared with lations on hydration of dioctahedral clays (6-8). Near

## Abstract A number of diazenedicarboxylates have been studied by multinuclear magnetic resonance (^17^O, ^15^N, ^13^C) and compared with analogous fumaric, maleic, and phthalic diesters; the investigation of selected compounds of these classes was complemented by density functional theory (DFT) c

## Abstract ^1^H, ^13^C, ^14^N and ^15^N NMR data are reported for a series of mesoinoic 1,3,4‐triazoles and some of their salts. The results obtained show that the molecules studied exist in the cyclic mesoionic form with delocalization of the positive charge over the ring atoms. The corresponding

## Abstract The nuclear spin relaxation rate of the quadrupolar ^14^N nuclei in __N,N′,N″__‐tris(trimethylsilyl)borazine (1) is surprisingly slow [__T__~1~(^14^N)=0.1 s]. This allows one to measure ^1^__J__(^29^Si^14^N) (9.6 Hz) directly from the ^29^Si NMR spectra and also to compare signs of coup