Researchers

Post Doctoral Researcher

• Govindharaj Kamaraj (govind@u.sogang.ac.kr)
  Dr. Govindharaj K. specializes in nanomaterial-based chemiresistive sensors for the detection of volatile organic compounds (VOCs), wireless human breath monitoring, sleep disorder detection, humidity sensing, and non-enzymatic biosensors for biomedical applications.

Ph.D. Candidate

• 한재호 (Jaeho Han) (kite12@sogang.ac.kr)
  Jaeho Han is working on Power Management Integrated Circuits (PMIC) and sensor Readout Integrated Circuits (ROIC), aiming to enhance the performance and efficiency of smart sensors.

M.S. Candidates

• 류승표 (Seungpyo Ryu) (spryu@sogang.ac.kr)
  Ryuseung Pyo is involved in researching synaptic devices for sweat sensors, contributing to the development of innovative biosensors for health monitoring applications.

• 고기윤 (Giyoon Ko) (kgyn1324@sogang.ac.kr)
  Giyoon Ko is interested in PMIC, DC/DC converters, and wireless power transfer technologies, which are essential for developing efficient power management systems and wireless energy solutions.

• 이진성 (Jinsung Lee) (jslee43@sogang.ac.kr)
  Lee Jin Sung is interested in photonic synaptic transistors for image detection, focusing on innovative device structures that enhance optical sensing and neuromorphic computing applications.

• 최윤근 (Younkeun Choi) (ykchoilab@sogang.ac.kr)
  Choi Youn Keun is interested in sensor MEMS, O-TFT, and neuromorphic devices, aiming to advance the development of high-performance sensing and brain-inspired computing technologies.

• 서동욱 (Dongwook Seo) (dwseolab@sogang.ac.kr)
  Dongwook Seo is interested in glucose sensors that incorporate synaptic characteristics to enhance the performance of biosensors for people with diabetes.

• 이주영 (Juyoung Lee) (jyleelab@sogang.ac.kr)
  Juyoung Lee is interested in photonic sensor and O-TFT, aiming to develop efficient, low-power physiological monitoring systems using advanced optical materials.

• 권영문 (Youngmun Kwon) (ymkwonlab@sogang.ac.kr)
  Kwon Young Mun is interested in high-performance ZnO UV photodetectors, exploring advanced nanostructures and thin-film engineering to enhance responsivity and sensitivity for UV optoelectronic sensing to facilitate their integration into wearable devices.