K. Laali
Dec 1, 2000
Citations
0
Influential Citations
8
Citations
Journal
Coordination Chemistry Reviews
Abstract
Abstract Novel transformations involving the nitro and nitroso groups in superacid media are discussed and summarized. NO 2 -diprotonation is a key reaction for nitro PAHs, forming N , N -dihydroxyiminium–arenium dications whereas nitrosoarenes are N , O -diprotonated to form hydroxyiminium–arenium dications. In nitropyrenes a facile cyclization involving the nitro group leads to five- and/or six-membered ring heterocyclic cations. Nitro cyclization also occurs in nitroalkylbenzenes but at higher temperatures. Multinuclear NMR data for the resulting persistent NO 2 -diprotonated dications and their cyclized analogs are gathered and the structural requirements to bring about nitro cyclization are assessed. Conjugated nitroalkenes such as nitrostyrene and nitroethene are NO 2 -diprotonated to form hydroxyiminium–carbenium dications. β-Heteroatom-substituted nitroethylenes are C , O -diprotonated and subsequently form hydroxynitrilium ions. Nitronate salts and unsubstituted nitroalkanes are activated in superacids via their protonated nitronic acid. β-ethoxycarbonyl-substituted nitroalkanes are activated via the O , O -diprotonated aci -nitro species with further O -protonation to give dioxonium–carbenium trications or via hydroxynitrilium ions. The NMR characteristics for the dihydroxyiminium–carbenium dications and hydroxynitrilium ions from various 2-nitroalkenes and their nucleophile quenching-derived cations are also gathered. The mechanistic aspects emphasizing dicationic (and tricationic) intermediates, their interplay and the potential synthetic benefits of these transformations which greatly extend the chemistry of the nitro group are highlighted.