Group Leader
Professor in Physics with passion for the rational development of functional and sustainable light-emission devices.
Professor in Physics with passion for the rational development of functional and sustainable light-emission devices.
My research focuses on biomass-derived functional nanomaterials and their use in sustainable optoelectronic applications.
I focus on the development of high-efficiency light-emitting electrochemical cells.
I am doing research on the fabrication and operation of printed organic electronics, mainly light-emitting electrochemical cells.
I am interested in device physics and lab instrumentation.
I am doing research on the fabrication and characterization of light-emitting electrochemical cells, aiming to have more understanding of their physical property and contribute to the practical application.
My research interest encompasses organic material design, their synthesis and device fabrication of various organic electronic devices.
My research interests are the preparation and application of optical nanomaterials. I am currently focusing on carbon-based nanodots, mainly dealing with the synthesis of carbon dots with tunable fluorescence, their characterizations, and the study of their optical properties.
I focus on device physics and ion distribution dynamics in LECs. Previously, I worked on self-heating in OLEDs, exciton dynamics in organic semiconductors, and room-temperature phosphorescence.
I am interested in ion and charge transport and in the development of sustainable light-emitting electrochemical cells.
I am interested in the fabrication of flexible, efficient, and transparent light-emitting electrochemical cells with novel materials.
I aspire to contribute to a realization of green technology utilizing sustainable materials. By combining characterization of materials and performance analysis of LECs I have been working on topics such as electrochemical doping, reusability and durability.