Nanophotonics

Nanophotonics is a field of study that focuses on the interaction of light with materials on a nanoscale. The light-matter interaction at the nanoscale has led to the discovery of several novel optical phenomena that have the potential to revolutionize a wide range of fields, including sensing, imaging, and communications. We are interested in investigating the light-matter interaction to better understand it, and to utilize our findings to create unique and innovative optical effects that could have significant applications in the future.

Inverse design 

We focus on leveraging computational models to design various nanophotonic devices, including antennas, core-shell particles, perfect absorbers, color filers, and among others. Our goal is to explore new frontiers in nanophotonics design and to develop innovative solutions that advance the field.

Optical devices and applications

We are exploring the potential applications of nanophotonics devices in fields such as AR/VR applications, holographic display, anti-counterfeiting, daytime radiative cooling, structural colors, and optical sensors. As the range of applications continues to grow, there is an increasing need to make nanophotonics more feasible and practical, leading to the development of more advanced smart optical devices.

Current Projects

Related Industry