| Autor: |
Green, Alice E., Schaller, Sascha, Meizyte, Gabriele, Rhodes, Benjamin J., Kealy, Sean P., Gentleman, Alexander S., Schöllkopf, Wieland, Fielicke, André, Mackenzie, Stuart R. |
| Zdroj: |
The Journal of Physical Chemistry - Part A; July 2020, Vol. 124 Issue: 26 p5389-5401, 13p |
| Abstrakt: |
OCS binding to and reactivity with isolated gold cluster cations, Aun+(n= 1–10), has been studied by infrared multiple photon dissociation (IR-MPD) spectroscopy in conjunction with quantum chemical calculations. The distribution of complexes AunSx(OCS)m+formed reflects the relative reactivity of different cluster sizes with OCS, under the multiple collision conditions of our ablation source. The IR-MPD spectra of Aun(OCS)+(n= 3–10) clusters are interpreted in terms of either μ1or μ2S binding motifs. Analysis of the fragmentation products following infrared excitation of parent Aun(OCS)+clusters reveals strongly size-selective (odd–even) branching ratios for OCS and CO loss, respectively. CO loss signifies infrared-driven OCS decomposition on the cluster surface and is observed to occur predominantly on even nclusters (i.e., those with odd electron counts). The experimental data, including fragmentation branching ratios, are consistent with calculated potential energy landscapes, in which the initial species trapped are molecularly bound entrance channel complexes, rather than global minimum inserted structures. Attempts to generate Rhn(OCS)+and Ptn(OCS)+equivalents failed; only sulfide reaction products were observed in the mass spectrum, even after cooling the cluster source to −100 °C. |
| Databáze: |
Supplemental Index |
| Externí odkaz: |
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