195Pt and 1H NMR studies of platinum(II) complexes with ethylenediamine derivatives

2 = a variety of ligand types) reveal that phenyl phosphines afford relatively large hydrodynamic radii r h . The presence of a substituent on the aryl ligand of PtX(Aryl)(L) 2 does not markedly affect the D values, whereas a substituent of similar size added to a PPh 3 group in Pt(C 7 H 4 O 2 )(L 1

## Abstract Carboxylato‐bridged dinuclear platinum(II) complexes of the type [Pt~2~X~2~(μ‐OOCR′)~2~(PR~3~)~2~] [X = Cl, I; R′ = CH~3~, CF~3~; PR~3~ = PEt~3~^n^, PPr~3~^n^, PBu~3~^n^, PMe~2~Ph, PMePh~2~, PPh~3~, P(__p__‐Tol)~3~] were prepared and investigated by ^31^P and ^195^Pt NMR spectroscopy. T

## Abstract Platinum‐195 chemical shift measurements for __cis__‐PtCl~2~(PCy~3~)~2~ and __trans__‐PtXCl(PCy~3~)~2~ (X = H, Cl, SnCl~2~Ph and SnCl~3~) in methylene chloride solution are reported. A comparison of these shifts with those from analogous complexes containing less bulky phosphine ligands

## Abstract ^1^H, ^13^C, ^15^N and ^195^Pt NMR studies of gold(III) and platinum(II) chloride organometallics with N(1),C(2′)‐chelated, deprotonated 2‐phenylpyridine (2ppy\*) of the formulae [Au(2ppy\*)Cl~2~], __trans__(__N__,__N__)‐[Pt(2ppy\*)(2ppy)Cl] and __trans__(S,N)‐[Pt(2ppy\*)(DMSO‐__d__~6~)

## Abstract ^1^H, ^13^C, ^195^Pt and ^15^N NMR studies of platinide(II) (M = Pd, Pt) chloride complexes with such alkyl and aryl derivatives of 2,2′‐bipyridine and 1,10‐phenanthroline as LL = 6,6′‐dimethyl‐bpy, 5,5′‐dimethyl‐bpy, 4,4′‐di‐__tert__‐butyl‐bpy, 2,9‐dimethyl‐phen, 2,9‐dimethyl‐4,7‐diphe