Our Integrated Optical Lab combines advanced techniques—such as localized plasmon spectroscopy, surface-enhanced Raman spectroscopy (SERS), FTIR, atomic force and optical microscopy, laser writing, and ultra-precise motion control—to perform comprehensive characterization of smart materials, liquid crystals, and nanostructured surfaces. These cutting-edge tools allow us to investigate the physical, chemical, and optical properties of functional nanomaterials, supporting the development of innovative sensing platforms and photonic devices with applications across nanotechnology and materials science.
Our Smart Materials Lab features advanced 3D printing systems, precision balances, and chemical processing equipment, enabling us to fabricate, engineer, and analyze functional materials with high accuracy. This facility supports the creation of tailored prototypes and precise measurement of nanomaterials, accelerating the development of next-generation smart systems for research and technology innovation.
Our clean room houses an advanced electron beam lithography system, enabling the creation of precise nanostructures on a variety of substrates. This facility supports high-resolution patterning essential for next-generation nanoelectronics, photonics, and materials research.
Our Nano Soft Matter Lab is equipped with advanced instruments for precise synthesis, processing, and characterization of functional materials. These tools enable us to prepare uniform thin films, achieve safe chemical and biological modifications, deposit noble metals on nanostructures, and analyze samples with high accuracy. This integrated platform supports our efforts in advancing soft matter research, fostering the development of novel materials and technologies for diverse scientific and industrial applications.