Sungbo Cho
Electronic Engineering
Position
Professor
Tel.
+82 31-750-5321
sbcho@gachon.ac.kr
Location
#705, AI Engineering Building
About:
Welcome to the i-MEBS (intelligent Materials, Energy, & Bio Systems) Lab, where we lead the integration of innovative materials, energy, and bio systems that will reshape our future. Moving beyond the boundaries of foundational science, we conduct in-depth research into next-generation advanced technologies for human sustainability. Through relentless challenges and creative experimentation, we are creating unprecedented smart materials and securing core original technologies. Grounded in academic excellence, we nurture global leaders and provide technological solutions for a better tomorrow. Discover the endless possibilities and the journey of innovation that will change the world here at the i-MEBS Lab.
Education:
04.08 ~ 08.09 Saarland University & Fraunhofer Insittute for Biomedical Engineering Physics and Mechatronics Dr.-Ing.
Experience:
24.03 ~ Semiconductor Education Excellence Initiative Semiconductor Director
22.03 ~ Seongnam System Semiconductor Academy System Semiconductor Director
09.09 ~ Gachon Univ. Dept. Electronic Engineering / Dept. Semiconductor Engineering Professor
03.01 ~ 09.08 Fraunhofer Institute of Biomedical Engineering Biomedical Engineering Researcher
Honors & Specialities:
2025 Atrial natriuretic peptide-enabled ECM-1 recognition: a new paradigm for Ce3+/Ce4+-amplified breast cancer biosensing, Advanced Composites and Hybrid Materials
2025 Novel High-Throughput Electrochemical Detection of Staphylococcus Aureus, Bacillus Cereus, or Micrococcus Luteus Using AuNPs@Ti3C2Tz Functionalized with Sandwich Peptides, Small
2025 Novel Siglec-1/β-CD/rGO impedimetric biosensor for detecting Neu5Ac expression in red blood cells, Biosensors and Bioelectronics
2024 Electrochemical Alchemy: Novel NH2@Pt/AgVO3 and boronic acid recognition to probe insulin-resistant macrophage phenotype shifts via glucose analysis and DFT studies, Chemical Engineering Journal
2023 Energizing bacterial sensing: Unveiling new horizons with Ti2CN-ionic liquid triboelectric nanogenerator, Chemical Engineering Journal
2023 Silver chalcogenide loaded V2CTx MXene-molecularly imprinted polymer-based novel ratiometric sensor for the early predictive cancer marker: L-Fucose, Chemical Engineering Journal



