Substituent effects on the 31P NNIR chemical shifts of substituted phenylphosphonic acids

Tricoordinate phosphorus NMR chemical shifts are computed (GIAO/6È311 ] G\*\*//RMP2(fc)/6È 31 ] G\*) and analyzed for molecules (X, F, OH, BeH, Li and H \ "simple Ðrst PX 2 Y Y \ EH n : N H 2 , CH 3 , BH 2 , row substituentsÏ), the "normalÏ d(31P) relationship with the substituent electronegativity

Over 60 lignin-related model compounds were phosphitylated with 2chloro-4,4,5,5-tetramethyldioxaphospholane, a sterically hindered analogue of 2-chloro-1,3,2-dioxaphospholane used in earlier work, and their 31P chemical shifts were recorded. Excellent resolution between the chemical shifts of phosph

## Abstract Carbon‐13 chemical shifts of fourteen __para__‐substituted benzylbenzenes have been determined. The relative substituent chemical shifts (SCS) of the methylene carbons and the aromatic ring carbons (C‐4, C‐1′ and C‐4′) correlated well with the Hammett substituent effects using the dual

## Abstract ^13^C chemical shifts and ^31^P,^13^C coupling constants are reported for nine 1‐hydroxyalkylphosphonic and two additional phosphonic acids. The α‐substituent‐induced chemical shifts (α‐SCS) of the phosphonate group were calculated and their non‐additivity was observed. Good linear corr