We demonstrate in the present work that relatively straightforward acid/base principles of surface reactivity predict oxygen-assisted amine-aldehyde coupling on metallic gold. Formed via the oxygen-assisted (Bronsted acid) N-H bond activation of dimethylamine, (CH3)(2)N-(a) acts as a nucleophile to couple with various aldehydes, forming the corresponding amides. At low initial coverages of oxygen on the surface very high selectivities are achieved. The reaction proceeds via the surface-bound hemiaminal intermediate, which beta-hydride eliminates well below room temperature to form the amide product. On metallic gold desorption of the amide appears to be the rate-limiting step. Under the transient conditions employed in this work oxygen-assisted coupling of the amine with alcohols is limited, suggesting that such reactions must be conducted in the steady state in order to have both the aldehyde and adsorbed (CH3)(2)N-(a) present simultaneously.

• 出版日期2011