Research & Development
ABOUT
Development
Lithography is indispensable in academic and research institutions, driving breakthroughs in nano-optics, nanomaterials, and plasmonics. By enabling the fabrication of intricate structures at the nanoscale, Eulitha’s DTL has opened new possibilities in the study and design of novel materials and optical devices, such as to develop plasmonic structures, manipulating light-matter interactions at the nanoscale, leading to advancements in data storage, biosensing, and energy harvesting. Nano-optics research benefits from lithography in creating lenses, waveguides, and other optical components, enhancing imaging and communication technologies. Moreover, lithography allows the development of diverse nanomaterials, enabling their application in electronics, medical diagnostics, and environmental monitoring.
- Nano-Optics
- Plasmonics
- Nano Materials
APPLICATION
Nano-Optics
Nano-optics explores the manipulation and control of light for imaging, sensing, and information processing. By harnessing the unique properties of nanoscale structures, scientists can achieve unprecedented control over light-matter interactions. Nano-optics holds immense promise for applications ranging from ultra-high-resolution imaging to next-generation optical computing.
APPLICATION
Plasmonics the behavior of surface plasmons, collective oscillations of electrons, in metallic nanostructures. It enables the confinement and manipulation of light at the nanoscale, leading to applications in sensing, imaging, and information processing. Plasmonics offers the potential for ultra-compact optical devices and the enhancement of light-matter interactions. By harnessing the unique properties of surface plasmons, researchers strive to unlock new capabilities for advanced technologies, promising a future with faster communication, more efficient energy harvesting, and improved sensing capabilities.
APPLICATION
Nano materials exhibit unique properties such as increased surface area, enhanced mechanical strength, and improved electrical conductivity. These materials find applications in various fields, including electronics, medicine, energy, and environmental protection. As research in this field progresses, nano materials hold the key to transforming industries and shaping the future of materials science.
