Substituent effects on 33S NMR chemical shifts in sulphones

## Abstract ^33^S NMR parameters (chemical shifts and linewidths) in 2‐substituted sodium ethanesulfonates, XCH~2~CH~2~SO~3~Na (X = H, CH~3~, OH, SH, NH~2~, Cl, Br, NH~3~^+^) depend upon the electronic properties of substituents. To explain experimental results and obtain additional information on

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

## 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

33 S NMR chemical shifts have been determined for the first time for a series of 10 substituted phenacyl sulfones. Electron-withdrawing and electron-releasing substituents in 4-substituted phenyl-4 0 -methylphenacyl sulfones, p-MeC 6 H 4 COCH 2 SO 2 C 6 H 4 R-p, cause a 'reverse' substituent effe