Fluorescent nanomaterials have a broad range of applications in solid-state lighting, displays, solar energy conversion, biological imaging, and lasers. In order to realize the potential applications, researchers still need to explore new methods in order to achieve high quality fluorescent nanomaterials with high monodispersity, high photoluminescence quantum yields, narrow and symmetric emission spectra, and good stability. Also, the energy losses often occur in fluorescent nanomaterials when they are in compact state, which calls for further research to unveil the underlying mechanisms and explore useful method to maintain the superior emission abilities of the fluorescent nanomaterials.

The aim of this Special Issue is to collate research articles as well as review articles that investigate the synthesis, properties of fluorescent nanomaterials and their applications in optoelectronics, biological imaging or others.

Potential topics include but are not limited to the following:

• Novel fabrication techniques of fluorescent nanomaterials
• Unique properties of the fluorescent nanomaterials
• Application of fluorescent nanomaterials to solid-state lighting, display, sensors, and energy conversion
• Energy and charge transfer properties of the fluorescent nanomaterials in compact state
• Theoretical studies and modeling of the new problem of fluorescent nanomaterials and their applications