Quantum Photonic Materials Research Unit
- Research on fundamental and applied photonic materials through the control of quantum carrier properties. Establishment and operation of advanced research equipment for functional photonic materials research based on quantum properties, and conduct of research to solve challenging problems in the materials field
Research Content
Research on plasmon-induced fluorescence enhancement and its mechanism in graphene quantum dots
Research on quantum dynamic behavior of photoelectric conversion materials/devices using particle beam implantation technology
Research Infrastructure
- Conduct of research on elucidating carrier dynamics such as electrons, holes, excitons, trions, and plasmons in advanced functional photonic materials and on precise control of their properties using ultrafast spectroscopic imaging microscopy with simultaneous time, space, and energy resolution (FLIM and STED-FLIM)
- The quantum photonic materials research field (Wonsik Chae, Hwanuk Kim, Jeonghyeon Ha) is conducting research on the fundamental properties and applications of materials/devices for semiconductors, displays, photocatalysts, sensors, and solar cells using photonic materials through domestic and international collaborative research.
Recent research achievement in the quantum photonic materials research field (2023) : Research on Ni, Co co-doped iron hydroxide coated on WO3
Published in Journal of Materials Chemistry A, IF=11.9, top 9.2% in JCR, March 2023
Recent research achievement in the quantum photonic materials research field (2022) : Elucidation of the dynamics of single perovskite quantum dots
Published in Journal of Physical Chemistry Letters, IF=6.8, top 13.8% in JCR, June 2022. Front cover article
