201 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of nanocarbon materials based core technology for high performance energy storage devices |
200 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of nanocarbon based conducting materials via a solution processing) |
199 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of smart nano-materials and 3D printing technology for 3D printed electronics |
198 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of Multi-Source Energy Harvesting Module |
197 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of high-power Lithium-ion capacitors to support peak power of FCEV |
196 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of high energy density lithium ion battery technology for electric vehicles capable of high rate charging |
195 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of elemental technology of less reactive lithium host for high energy density and power density battery |
194 | 2022 |
Fall |
KERI School |
Electric Energy Materials Engineering |
Development of highly stabilized solid electrolyte for all-solid-state lithium batteries with high energy density |
193 | 2022 |
Fall |
KIST School |
Nanoscience and Technology |
Solid-state Ionic Conducting Materials and Metallic Materials for Energy Applications |
192 | 2022 |
Fall |
KIST School |
Nanoscience and Technology |
Materials, Devices and Processing Technologies for Solar Cells |