Our research focuses on tunable colloidal nanocrystals integrated with facile chemical synthesis to explore their multifaceted nanostructures in catalysis, energy, and environmental applications. The synthesis of diverse nanoparticles with monodisperse morphologies, including nanorods, wires, nanocubes, octahedra and polyhedra, aims to uncover their properties and explore them for practical use. The properties of materials at the nanoscale are significantly influenced by quantum confinement effects, where size becomes a critical factor. Therefore, we have developed and engineered properties at a nanoscale by precisely controlling the size, morphology, and interparticle interactions of nanostructures. These properties are not only intriguing from a fundamental structural chemistry perspective, but also hold great promise for a wide range of practical applications. Through collaboration and expertise in synthesis and characterization, we strive to advance knowledge and drive innovation in this dynamic field.
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