On the basis of experimental evidence and DFT calculations, we propose a simple yet viable way to stabilize and chemically activate gold nanoclusters on MgO. First the MgO surface is functionalized by creation of trapped electrons, (H<sup>+</sup>)(e<sup>-</sup>) centers (exposure to atomic H or to H<sub>2</sub> under UV light, deposition of low amounts of alkali metals on partially hydroxylated surfaces, etc.); the second step consists in the self-aggregation of gold clusters deposited from the gas phase. The calculations show that the (H<sup>+</sup>)(e<sup>-</sup>) centers act both as nucleation and activation sites. The process can lead to thermally stable gold cluster anions whose catalytic activity is enhanced by the presence of an excess electron. © 2008 American Chemical Society.
Pacchioni, G., Sicolo, S., DI VALENTIN, C., Chiesa, M., Giamello, E. (2008). A route toward the generation of thermally stable Au cluster anions supported on the MgO surface. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 130(27), 8690-8695 [10.1021/ja710969t].
A route toward the generation of thermally stable Au cluster anions supported on the MgO surface
PACCHIONI, GIANFRANCO;SICOLO, SABRINA;DI VALENTIN, CRISTIANA;
2008
Abstract
On the basis of experimental evidence and DFT calculations, we propose a simple yet viable way to stabilize and chemically activate gold nanoclusters on MgO. First the MgO surface is functionalized by creation of trapped electrons, (H+)(e-) centers (exposure to atomic H or to H2 under UV light, deposition of low amounts of alkali metals on partially hydroxylated surfaces, etc.); the second step consists in the self-aggregation of gold clusters deposited from the gas phase. The calculations show that the (H+)(e-) centers act both as nucleation and activation sites. The process can lead to thermally stable gold cluster anions whose catalytic activity is enhanced by the presence of an excess electron. © 2008 American Chemical Society.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
