| 초록 |
Real-world is being transferred into cyber world, and sensor technology is doing most critical role in current society by translating various physical information into electronic data. Under this paradigm, nanotechnology has produced some of the most sensitive analytical platforms for biological and chemical information in existence, with many achieving single molecule resolution, including gas, ion, protein, lipid, nucleic acid, and small molecules. There is a significant motivation to extend such sensor platforms to the real-world biochemical events ranging from environment, pipeline, transport, human to even microorganisms, where they can form the basis of our human life. In this talk, we will explore the scientific questions that what optoelectronic, material, and instrumental interface can be combined to bring this powerful sensor technology into next-generation biochemical informatics. We will focus on how to tackle the pressing challenges of conventional biochemical monitoring platforms by leveraging state-of-the-art nanosensor technology into real-world interfacing hardware systems such as benchtop fiber optics, microfluidics, and wafer-scale commercial sensor fabrication. |
