Catalytic efficiency of macrocyclic-capped gold nanoparticles: cucurbit[n]urils versus cyclodextrins

In this work, different macrocyclic systems, belonging to cucurbit[n]urils and cyclodextrins families, were employed as stabilizers of gold nanoparticles and their performance as catalysts in the reduction reaction of the toxic 4-nitrophenol to produce the valuable 4-aminophenol, was evaluated. To this goal, six nanosystems were prepared and compared under identical experimental conditions. The influence that (i) differences in shape, (ii) nature of chemical groups constituting the receptor entrances and (iii) differences in the portal sizes of those stabilizing agents have in the activity of these nanoparticles as catalysts in a nitro compound reduction reaction is evaluated and discussed. The TEM characterization of the nanocatalysts prepared is included. From these data, nanoparticles ranging from 3.7–10.7 nm in diameter, depending on the stabilizer employed, were obtained. The evaluation of kinetic rate constants normalized respect to gold concentration and catalyst surface for each system is included and discussed. In addition, the stability of the different nanocatalyst depending on the capping agent employed is also evaluated.