Add to ORKGA combination of static and time-resolved spectroscopic techniques has been applied to study the low-lying excited electronic states of protein-encapsulated Au nanoclusters in terms of their energy levels and relaxation mechanisms. The energy levels were determined using photoluminescence (PL) spectroscopy. The excited state dynamics were probed using time-resolved PL techniques as well as femtosecond transient absorption (TA) spectroscopy. A simple model was proposed to account for the key spectral and dynamic features observed. This study has added new insight to the optical and dynamic properties of metal nanoclusters of interest in many applications including solar energy conversion and biomedical imaging. © 2014 Elsevier B.V
Excited-state properties of photonic materials play an important part in dictating the photocatalyti...
Nanoscale engineering shows tremendous promise for developing new devices in energy transfer and sto...
The exact interaction between Au cores and surface ligands remains largely unknown because of the co...
Understanding the correlation between the atomic structure and optical properties of gold nanocluste...
Photophysical properties of a water-soluble cluster Au<sub>102</sub>(<i>p</i>MBA)<sub>44</sub> (<i>p...
Doctor of PhilosophyDepartment of ChemistryChristine AikensThiolate-protected noble metal nanopartic...
Highly monodisperse samples of three ligand-protected gold nanoclusters Au102(pMBA)44, Au144(SC2H4...
Electronic energy relaxation of Au<sub>144</sub>(SR)<sub>60</sub><sup>q</sup> ligand-protected nanoc...
Photodynamics of a highly monodisperse sample of a water-soluble gold nanocluster tentatively identi...
Fluorescent gold nanoclusters encapsulated by proteins have attracted considerable attention in rece...
Bimetallic Au@Ag nanoclusters have been shown to possess unique properties compared to their monomet...
Gold nanoclusters (AuNCs) are nanomaterials with interesting photoluminescent properties that can be...
Clear mechanistic insights into excited state dynamics in thiolate-protected gold nanoclusters are v...
In the last thirty years, the study of plasmonic properties of noble metal nanostructures has become...
A subtle change in the electronic structure of thiolate-protected noble metal nanoparticles can resu...
Excited-state properties of photonic materials play an important part in dictating the photocatalyti...
Nanoscale engineering shows tremendous promise for developing new devices in energy transfer and sto...
The exact interaction between Au cores and surface ligands remains largely unknown because of the co...
Understanding the correlation between the atomic structure and optical properties of gold nanocluste...
Photophysical properties of a water-soluble cluster Au<sub>102</sub>(<i>p</i>MBA)<sub>44</sub> (<i>p...
Doctor of PhilosophyDepartment of ChemistryChristine AikensThiolate-protected noble metal nanopartic...
Highly monodisperse samples of three ligand-protected gold nanoclusters Au102(pMBA)44, Au144(SC2H4...
Electronic energy relaxation of Au<sub>144</sub>(SR)<sub>60</sub><sup>q</sup> ligand-protected nanoc...
Photodynamics of a highly monodisperse sample of a water-soluble gold nanocluster tentatively identi...
Fluorescent gold nanoclusters encapsulated by proteins have attracted considerable attention in rece...
Bimetallic Au@Ag nanoclusters have been shown to possess unique properties compared to their monomet...
Gold nanoclusters (AuNCs) are nanomaterials with interesting photoluminescent properties that can be...
Clear mechanistic insights into excited state dynamics in thiolate-protected gold nanoclusters are v...
In the last thirty years, the study of plasmonic properties of noble metal nanostructures has become...
A subtle change in the electronic structure of thiolate-protected noble metal nanoparticles can resu...
Excited-state properties of photonic materials play an important part in dictating the photocatalyti...
Nanoscale engineering shows tremendous promise for developing new devices in energy transfer and sto...
The exact interaction between Au cores and surface ligands remains largely unknown because of the co...