Near-infrared fluorescent Ag 2 S quantum dots stabilized by penicillamine enantiomers: influence of ligand chirality on linear and nonlinear optical properties and toxicity | Synapse
March 14, 2026Open Access
Near-infrared fluorescent Ag 2 S quantum dots stabilized by penicillamine enantiomers: influence of ligand chirality on linear and nonlinear optical properties and toxicity
Key Points
This research examines how ligand chirality affects the optical properties and toxicity of silver sulfide quantum dots.
Synthesized chiral Ag 2 S quantum dots using penicillamine enantiomers.
Conducted nonlinear optical characterization of the synthesized quantum dots.
Evaluated the toxicity of the quantum dots.
Assessed linear optical properties alongside non-linear characteristics.
Chirality of penicillamine influences both linear and nonlinear optical properties of the quantum dots.
Toxicity assessments indicate varying effects based on ligand chirality.
Success in optimizing synthesis conditions for NIR-emitting quantum dots.
Abstract
Optimized synthesis of chiral NIR-emitting Ag 2 S QDs with nonlinear optical characterization and toxicity evaluation.