Nanomaterials Discovery

Overview

The discovery of new nanomaterials with tailored properties is crucial for advancing technologies in catalysis, energy storage, sensing, and beyond. Our research combines flow chemistry, AI-driven optimization, and advanced characterization to accelerate the discovery and development of functional nanomaterials. By leveraging the precision of microfluidic synthesis and the power of machine learning, we can rapidly explore vast parameter spaces to identify materials with desired properties.

Research Objectives

• •Discover novel nanomaterial compositions and structures
• •Develop synthesis protocols for materials with specific functional properties
• •Understand structure-property relationships in nanomaterials
• •Create scalable synthesis routes for promising materials

Applications

• •Catalysts for sustainable chemical transformations
• •Electrode materials for batteries and supercapacitors
• •Photocatalysts for solar energy conversion
• •Plasmonic nanoparticles for sensing and imaging