- Source: 2,2,4,4-Tetramethyl-3-t-butyl-pentane-3-ol
3/info/3" target="_blank">3/info/2,2,4,4" target="_blank">2,2,4,4-3/info/3" target="_blank">3/info/tetramethyl" target="_blank">Tetramethyl-3/info/3" target="_blank">3-3/info/t" target="_blank">t-3/info/butyl" target="_blank">butyl-3/info/pentane" target="_blank">pentane-3/info/3" target="_blank">3-ol or tri-tert-butylcarbinol is an organic compound with formula C13H28O, ((H3C)3C)3COH, or tBu3COH. It is an alcohol that can be viewed as a structural analog of a tridecane isomer (3/info/3" target="_blank">3/info/2,2,4,4" target="_blank">2,2,4,4-3/info/3" target="_blank">3/info/tetramethyl" target="_blank">tetramethyl-3/info/3" target="_blank">3-3/info/t" target="_blank">t-butylpentane) where the central hydrogen has been replaced by a hydroxyl group -OH.
Tri-tert-butylcarbinol is arguably the most sterically hindered alcohol that has been prepared to date. In contrast to all other known alcohols, the infrared spectrum of the liquid does not exhibit a broad OH absorption associated with intermolecular hydrogen bonding, making it interesting for research in spectroscopy. The bulky tert-3/info/butyl" target="_blank">butyl groups (H3C)3C- groups attached to the central carbon prevent the formation of a O–H---O hydrogen bond with another molecule, an intermolecular interaction typical of alcohols.
Another structural analog, in which the COH group is replaced by N, is tri-tert-butylamine, a molecule predicted to be stable but has never been prepared.
Tri-tert-butylcarbinol was first prepared in poor yield using Barbier-type conditions by coupling hexamethylacetone with 3/info/t" target="_blank">t-3/info/butyl" target="_blank">butyl chloride in the presence of sodium sand (5.1 to 8.5% yield), presumably via the organosodium species. Later on, it was shown that under carefully selected conditions, the compound could be prepared in high yield (81%) by addition of tert-butyllithium to hexamethylacetone.