13C NMR chemical shifts of substituted 2,2-dimethyl-2H-chromenes

The complete assignment of the 1H and 13C NMR spectra of eight thienyl-substituted chromenes was achieved by the concerted application of homonuclear (gs-COSY), 1H-detected heteronuclear one-bond (gs-HMQC) and long-range (gs-HMBC) gradientselected correlation experiments.

## Abstract The ^13^C NMR spectra of a series of 2‐X‐4‐Y‐5‐Z‐substituted 2H‐pyridazin‐3‐ones were measured and assigned on the basis of results from one‐dimensional semi‐selective INEPT or one‐dimensional relayed coherence transfer (HICUUP) experiments.

## Abstract The analysis of the ^13^C NMR chemical shifts of 16 substituted 2‐phenylthiazolidines shows that the 1,3‐thiazolid‐2‐yl group exerts a deshielding effect at the __ipso__ carbon (C‐1′) and shielding effects at the __ortho__ and __para__ positions of the benzene ring (C‐2′ and C‐4′), and

A13C NMR study of twenty-one 4.4dimethyl-2-phenyl-l.3-oxazolines has shown that the chemical shifts of the oxazoline moiety are insensitive towards substitution on the phenyl ring.

The I3C NMR spectra for eight 2-(4'-substituted)phenylisatogens were determined at 30°C in CDCI, . Analysis of the ipso-carbon SCS values was carried out using the well known DSP and DSP-NLR models. Changes in the "C SCS values for the carbon atoms in the isatogen moiety suggest that a small degree