Subject Highly efficient bio-conversion of carbon dioxide into bioresource (Korea Univ, Sang Jun Sim)
Name KCRC Date 2015-03-31 Hit 825

□ Overview

Development of high-speed screening technology in microfluidic device which can detect sophisticated interaction of between proteins and genes.


□ Research Goals

•Highly efficient bio-conversion of carbon dioxide into bioresource (biodiesel 6 L/m2/y) using microfluidic system


□ Research Contents

•Development of processes based on microfluidic system for cell culture and separation of valuable compounds
•Development of micro reactor (5000 μm diameter) for high biomass productivity(1.5 g/L/d)
•Improvement of efficient gene delivery system
•Production of biomass using mechanotransduction
•Development of HTS technology in microfluidic device (HTS speed 10,000 cells/s)
• Development of microfluidic bio-conversion system of carbon dioxide into bioresource(biodiesel 6 L/m2/y)
• Evaluation of process performance by scale-up culturing system


□ Expected Effects

•Development of super strain for high conversion efficiency of CO2 and production of biofuel, using microsystem for gene delivery
• CO2 reduction and various application of photosynthetic microorganisms through application to industry that emits CO2
• Development of new research field by integrating BT, NT, IT and study for biomass
• Commercialization by reducing the unit cost of biodiesel production



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