Synthesis, characterization, solid-state molecular structures, and deprotonation reactions of cationic alcohol complexes of osmium nitrosyl porphyrins

New alkoxide (OEP)Os(NO)(OR) (OEP = 2,3,7,8,12,13,17,1 8-octaethylporphyrin ato dianion; R = ethyl, isopropyl, hexyl, cyclohexyl) compounds and alcohol [(OEP)Os(NO)(HOR)](+) complexes (R = methyl, ethyl, isopropyl, hexyl, cycl ohexyl) have been prepared in high yields and have been fully characterized by IR,H-1 NMR, and UV-vis spectroscopy, and by elemental analyses. The (OE P)Os(NO)(OEt) compound was characterized by single-crystal X-ray crystallog raphy. The cationic aqua and alcohol [(OEP)Os(NO)(HOR)lf complexes (R = eth yl, isopropyl, hexyl) complexes were also characterized by single-crystal X -ray crystallography, and the latter represent the first osmium alcohol str uctures to be reported. The electrophilic [(OEP)Os(NO)](+) cation in the [( OEP)Os(NO)(HOR)](+) complexes renders the coordinated alcohol ligands susce ptible to deprotonation by pyridine to produce the corresponding alkoxide ( OEP)Os(NO)(OR) derivatives. A one-pot reaction sequence for the preparation of new (OEP)Os(NO)(OR) complexes from (OEP)Os(NO)(OEt) was developed, whic h was based on (i) initial protonation of the ethoxide compound to give [(O EP)Os(NO)(HOEt)](+). (ii) alcohol substitution by ROH to give [(oEP)Os(No)( HoR)](+), and (iii) deprotonation of the latter by pyridine to give (OEP)Os (NO)(OR).