Semiconductor Nanocrystal Design & Synthesis
Our work focuses on the design and synthesis of semiconductor nanocrystals, integrating computational modeling with chemical approaches. This combined strategy allows the creation of well-defined quantum dot structures as a foundation for photonic studies.
Our work focuses on the design and synthesis of semiconductor nanocrystals, integrating computational modeling with chemical approaches. This combined strategy allows the creation of well-defined quantum dot structures as a foundation for photonic studies.
Simple quantum mechanical simulations and computational tools are used to predict the properties of nanostructures. These insights provide practical guidelines that inform and refine experimental synthesis.
Chemical methods enable the synthesis of nanocrystals with targeted structures and compositions. Their accuracy is verified through structural characterization techniques such as TEM, XRD, XPS, and ICP-AES, ensuring reliable feedback for synthesis.
Research Information
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