Naslov
Rationale Strategy to Tune the Optical Properties of Gold Catenane Nanoclusters by Doping with Silver Atoms

Autori
Basu, Srestha ; Bakulić, Martina Perić ; Fakhouri, Hussein ; Russier-Antoine, Isabelle ; Moulin, Christophe ; Brevet, Pierre-François ; Bonačić-Koutecký, Vlasta ; Antoine, Rodolphe

Izvornik
Journal of physical chemistry. C (1932-7447) 124 (2020), 35; 19368-19374

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
silver doped gold nanoclusters ; linear spectra ; nonlinear spectra ; TD-DFT. DFT ; nanoscale ; OPA, TPA ; silver doping

Sažetak
We report the chemical substitution-mediated doping of silver atoms into Au10SG10 (SG: glutathione) catenane nanoclusters (NCs) in a controllable manner. Two levels of doping were conducted leading to two silver-doped Au10– xAgxSG10 nanoclusters (with x = 0–2 and x = 1–4). Optical studies reveal that nanoclusters with a high level of doping (x = 1–4) show a blue shift in absorption and a significant red shift of ∼50 nm in the two-photon-excited emission spectrum with respect to pristine Au10SG10. The preservation of the catenane structure is confirmed by comparing the experimental and computational X- ray diffraction patterns and absorption spectra of Au10SG10 and its silver- doped analogs. In order to better address the structure–property relationship in such catenane clusters, further theoretical investigations were performed at the DFT level. A high-energy shift of the S1 state is evidenced in the calculated one-photon absorption spectra due to a larger s to d gap in silver caused by smaller relativistic effects in comparison to the gold atoms. Furthermore, the red shift in the two-photon excited emission band of the clusters is due to significantly larger calculated relaxation of the first excited state in nanoclusters with a high level of silver doping.

Izvorni jezik
Engleski

Znanstvena područja
Fizika, Interdisciplinarne prirodne znanosti

POVEZANOST RADA