STABLE CARBOCATIONS .287. C-13 NMR AND AB-INITIO IGLO STUDY OF PROTONATED OXOCARBONS - POLY-O-PROTONATED SQUARIC, CROCONIC, AND RHODIZONIC ACIDS AND THEIR AROMATIC NATURE - PREPARATION AND STUDY OF TETRAHYDROXY-ETHENE AND DIAMINODIHYDROXYETHENE DICATIONS
Ga. Olah et al., STABLE CARBOCATIONS .287. C-13 NMR AND AB-INITIO IGLO STUDY OF PROTONATED OXOCARBONS - POLY-O-PROTONATED SQUARIC, CROCONIC, AND RHODIZONIC ACIDS AND THEIR AROMATIC NATURE - PREPARATION AND STUDY OF TETRAHYDROXY-ETHENE AND DIAMINODIHYDROXYETHENE DICATIONS, Journal of the American Chemical Society, 115(18), 1993, pp. 8060-8065
The protonation of oxocarbons in superacidic solutions has been studie
d. Squaric acid (3,4-dihydroxy-3-cyclobutene-1,2-dione), 2), croconic
acid (4,5-dihydroxy-4-cyclopentene-1,2,3-trione, 3), and rhodizonic ac
id (5,6-dihydroxy-5-cyclohexene-1,2,3,4-tetraone, 4) were poly-O-proto
nated with Magic Acid (1:1 SbF5 + FSO3H) or fluorosulfuric acid at low
temperatures and characterized by C-13 NMR spectroscopy. The protonat
ion of oxalic acid and oxamide has also been studied in HSO3F/SbF5/SO2
solution at -78-degrees-C and the resulting ethene dications were cha
racterized by C-13 NMR spectroscopy. Dimethyl oxalate was also methyla
ted under stable-ion conditions with CH3F/SbF5 in SO2 solution but gav
e only the corresponding monomethylated cation. Comparison of experime
ntal with ab initio/IGLO calculated C-13 NMR chemical shifts gives ins
ight into the nature of the protonated oxocarbons. Similar comparisons
in the studied ethene dications show their preferred planar geometry.