Nano materials are physical, chemical and biological new materials that have been explored and developed on the nanoscale for new properties that are not seen in conventional materials. If the material is reduced to nanoscale, the properties of the material will have unique optical, electronic, and mechanical properties of nanomaterials that are significantly different from those observed at large scales. We are operating education to train professional manpower.
Therefore, it is important to understand nanomaterials, which play a key role in various industries such as sensors, medicine, imaging, computing, printing, catalysts and devices. We are training specialists in properties, analysis, and application of nanomaterials fields through multi-disciplinary curriculum related to multidimensional / organic-inorganic composite nanomaterials, nanoelectronic materials, nanobio materials, and nano energy materials.
By operating a curriculum that encompasses theoretical and practical education ranging from basic knowledge to understand the principles and structure of nanotechnology that will fundamentally change the future human society, to design and application of nanoscale integration technologies and new-function generating devices, We are training to nurture human resources capable of leading the academic / industrial fields of next-generation information and electronic devices, optical devices, and fusion multifunction devices internationally.
Nanobiology is a fusion technology that can contribute to disease prevention / diagnosis / treatment and wellness products / services by identifying the principle of life phenomenon by applying nanotechnology and applying it to biotechnology and medical field. By using nanostructures, Development of nano-biosensors that can be detected, development of nano drug delivery systems that can deliver therapeutic drugs to the target site, and nano-drug development technologies that can control the function of therapeutic cells (stem cells, immune cells, etc.).
Through multidisciplinary curriculum, we are providing world-class education to nurture international experts in nanobiotechnology / nanomedicine.
Energy devices such as solar cells, secondary cells, and fuel cells that generate or store electricity are attracting attention as solutions to energy resource depletion and environmental pollution problems. Nano-energy materials, which are the core of energy generation / conversion devices, are mostly based on electrochemical reactions, and are taught through various subjects, ranging from fundamental reaction principle of materials, measurement and analysis of characteristics, and application of devices.