Work on computational NMR recently carried out at our Laboratory in Padova is reviewed. We summarize our results concerning the calculation of NMRproperties (chemical shifts and spin-spin coupling constants) in a variety of contexts, from the structure elucidation of complex organic molecules or molecules containing heavy atoms to weakly interacting species, such as those involved in hydrogen bonding or van der Waals CH-? interactions. We also present some original results, viz. the calculated 1H and 13C spectra of the putative natural substance nimbosodione, the first examples of calculated 181Ta chemical shifts, spin-spin couplings in Hg2+ 4 and through-space coupling constants involving 205Tl.
Computational NMR spectroscopy: reversing the information flow
Saielli;
2007
Abstract
Work on computational NMR recently carried out at our Laboratory in Padova is reviewed. We summarize our results concerning the calculation of NMRproperties (chemical shifts and spin-spin coupling constants) in a variety of contexts, from the structure elucidation of complex organic molecules or molecules containing heavy atoms to weakly interacting species, such as those involved in hydrogen bonding or van der Waals CH-? interactions. We also present some original results, viz. the calculated 1H and 13C spectra of the putative natural substance nimbosodione, the first examples of calculated 181Ta chemical shifts, spin-spin couplings in Hg2+ 4 and through-space coupling constants involving 205Tl.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
