Materials and Devices Innovation at the Nanoscale
Our research group pursues the material and device innovation for enabling new capabilities and unprecedented performances in the diverse area of nanoscience, electronics and optoelectronics. So, we strive to exploit the unique properties of conventional and unconventional material platforms for a wide range of applications such as chemical & bio-nanosensors, thin film transistors, light-emitting devices, and energy devices. In all cases, we seek new schemes of engineering materials, novel processing, and novel device architecture - often at unrivaled levels.
Sounds Interesting to You? Join Us !
The ANRL is actively seeking the motivated postdocs, graduate students (MS, Ph.D) with the discipline of electrical engineering, materials science & engineering, physics, chemistry and related area. Contact us if interested via email at jaekyunkim@hanyang.ac.kr !!!
ANRL Notice
July 09, 2020
안녕하세요 차세대나노소자연구실을 담당하고 있는 김재균 교수입니다. 현재 한양대학교 에리카캠퍼스 나노광전자학과에 재직중이며, 주로 반도체/디스플레이를 위한 반도체 공정 및 소자에 대한 연구를 진행하고 있습니다. 홈페이지에 있는 다양한 연구분야에 관심있는 많은 학생과 연구자의 문의를 환영합니다. 감사합니다.
Nanosensor
Nanosensor enables detection of chemical and biological analytes at ultralow traces. We are using the nanomaterials to improve the performance of nanosensor for chemical and biological application. Furthermore, heterogeneous integration of nanosensor array on a CMOS platform will be a basis of electronic nose system.
Micro LEDs
Microscale LEDs represents the ideal display element in terms of brightness, robustness, and power consumption compared to the organic LEDs. We are developing the bottom-up manipulation of micro LEDs for their commercialization. We are also interested in micro LED-based active-matrix display and relevant applications.
Thin Film Transistors
Thin film transistors (TFTs) controls the color modulation in the display and can be also used in various applications. We are developing the next-generation materials using a convention and unconventional processes. Various characterization of these materials and devices enables us to investigate the stability and operation of TFTs.
Energy Devices
All electronics devices requires the electrical energy. The piezoelectric and triboelectric energy harvesting can generate the electricity by the mechanical motion. Also, our ionic liquid-based polymer matrix will enable to store the electric energy in an all-solid flexible platform. Monolithic integration of these energy device will a promising candidate to possible replace the conventional battery.
Recent Highlights
October 17, 2024
Jinchan Seo received the Best Poster Award in IMID2024.
August 23, 2024
IMID in Jeju.
May 23, 2024
Teacher's Day.