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Doping-mediated excited state dynamics of diphosphine-protected M@Au 12 (M = Au, Ir) superatom nanoclusters.

Wei PeiLei HouJing YangSi ZhouJijun Zhao
Published in: Nanoscale (2024)
Doping heterometal atoms into ligand-protected gold superatom nanoclusters (Au n NCs) is proposed to further diversify their geometrical and electronic structures and enhance their photoluminescence properties, which is attributed to the mixing and effects between atoms. However, the fundamental principles that govern the optoelectronic properties of the doped Au n NCs remain elusive. Herein, we systematically explored two prototypical 8-electron Au n ( n = 11 and 13) NCs with and without Ir dopant atoms using comprehensive ab initio calculations and real-time nonadiabatic molecular dynamics simulations. These doped Au n NCs maintain their parent geometrical structures and 8-electron superatomic configuration (1S 2 1P 6 ). Strong core-shell (Ir-Au n ) electronic coupling significantly expands the energy gap, resulting in a weak nonadiabatic coupling matrix element, which in turn increases the carrier lifetime. This increase is mainly governed by the low-frequency vibration mode. We uncovered the relationship between electronic structures, electron-vibration, and carrier dynamics for these doped Au n NCs. These calculated results provide crucial insights for the atomically precise design of metal NCs with superior optoelectronic properties.
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