Add to ORKGPlasmonic metal oxide nanocrystals bridge the optoelectronic gap between semiconductors and metals. In this study, we report a facile, non-injection synthesis of ZnO nanocrystals doped with Al, Ga, or In. The reaction readily permits dopant/zinc atomic ratios of over 15%, is amenable to high precursor concentrations (0.2 M and greater), and provides high reaction yields (>90%). The resulting colloidal dispersions exhibit high transparency in the visible spectrum and a wavelength-tunable infrared absorption, which arises from a dopant-induced surface plasmon resonance. Through a detailed investigation of reaction parameters, the reaction mechanism is fully characterized and correlated to the optical properties of the synthesized nanocryst...
We present a general synthesis for a family of n-type transparent conducting oxide nanocrystals thro...
International audienceThe size reduction in ZnO nanoparticles increases the presence of specific cry...
We present a generalized cation–anion codoping methodology for the synthesis of monodisperse, doped ...
Plasmonic oxide nanocrystals hold great promise in a wide range of applications, for which the avail...
We present a new colloidal synthesis of gallium-doped zinc oxide nanocrystals that are transparent i...
Metal oxide semiconductor nanocrystals (NCs) exhibit localized surface plasmon resonances (LSPRs) tu...
International audiencePlasmonics has achieved tremendous improvements over the recent decade in sens...
International audiencePlasmonics has achieved tremendous improvements over the recent decade in sens...
International audienceIn degenerate semiconductor nanoparticles, the tuning range of the plasmon res...
In this paper, we demonstrate the application of ZnO doped with gallium (GZO), aluminum (AZO) and ge...
We present the first colloidal synthesis of Ge-doped ZnO nanocrystals, which are produced by a scala...
Highly doped wide band gap metal oxide nanocrystals have recently been proposed as building blocks f...
We present a general synthesis for a family of n-type transparent conducting oxide nanocrystals thro...
International audienceThe size reduction in ZnO nanoparticles increases the presence of specific cry...
We present a generalized cation–anion codoping methodology for the synthesis of monodisperse, doped ...
Plasmonic oxide nanocrystals hold great promise in a wide range of applications, for which the avail...
We present a new colloidal synthesis of gallium-doped zinc oxide nanocrystals that are transparent i...
Metal oxide semiconductor nanocrystals (NCs) exhibit localized surface plasmon resonances (LSPRs) tu...
International audiencePlasmonics has achieved tremendous improvements over the recent decade in sens...
International audiencePlasmonics has achieved tremendous improvements over the recent decade in sens...
International audienceIn degenerate semiconductor nanoparticles, the tuning range of the plasmon res...
In this paper, we demonstrate the application of ZnO doped with gallium (GZO), aluminum (AZO) and ge...
We present the first colloidal synthesis of Ge-doped ZnO nanocrystals, which are produced by a scala...
Highly doped wide band gap metal oxide nanocrystals have recently been proposed as building blocks f...
We present a general synthesis for a family of n-type transparent conducting oxide nanocrystals thro...
International audienceThe size reduction in ZnO nanoparticles increases the presence of specific cry...
We present a generalized cation–anion codoping methodology for the synthesis of monodisperse, doped ...