Photoluminescence (PL) imaging has become a fundamental tool in disease diagnosis,
therapeutic evaluation, and surgical navigation applications. However, it remains a big …

This review summarizes recent progress in the design and applications of cadmium-free
quantum dots (Cd-free QDs), with an emphasis on their role in biophotonics and …

Nonthermal plasmas have emerged as a viable synthesis technique for nanocrystal
materials. Inherently solvent and ligand-free, nonthermal plasmas offer the ability to …

Silicon has long been established as the material of choice for the microelectronics industry.
This is not yet true in photonics, where the limited degrees of freedom in material design …

Concerns over possible toxicities of conventional metal-containing quantum dots have
inspired growing research interests in colloidal silicon nanocrystals (SiNCs), or silicon …

The syntheses of colloidal silicon nanocrystals (Si-NCs) with dimensions in the 3–4 nm size
regime as well as effective methodologies for their functionalization with alkyl, amine …

Fluorescence bioimaging is a powerful, versatile, method for investigating, both in vivo and
in vitro, the complex structures and functions of living organisms in real time and space, also …

DOI: 10.1002/adma. 201506140 the abundance and nontoxicity of Si.[24, 25] In the context
of compatibility with the bulk-Si technology on which graphene/Si Schottky-junction …

We report a chemical route to colloidal silicon (Si) nanocrystals, or quantum dots, with widely
tunable average diameter, from less than 3 nm up to 90 nm and peak photoluminescence …

This review describes promising laser-based approaches to produce silicon nanostructures,
including laser ablation of solid Si targets in residual gases and liquids and laser pyrolysis of …