Quantifying research contributions and academic achievements
Education, research, and professional milestones
"Highly compact inertia-driven triboelectric nanogenerator for self-powered wireless CO₂ monitoring"
Co-first author | Impact Factor: 17.1
"Recent Advances in Bioresorbable Biomedical Applications: From Materials to Devices"
Contributing Author
Undergraduate Group Research Program (UGRP)
DGIST Recognition for Outstanding Research
Project: BIN1/PICALM Effects on Amyloid Beta Clearance
Leading innovative solutions in IoT, healthcare, and environmental monitoring
Environmental IoT System
Designed and implemented a wireless CO₂ sensing system that operates without batteries by harvesting ambient vibration energy. Integrated BLE communication for real-time data transmission in industrial settings.
View Details →Multi-modal Monitoring
Architected a complete wireless PPG monitoring system with FPCB design, BLE data transmission to custom Android app, and on-device deep learning algorithms for real-time signal analysis.
View Details →Robust Physiological Tracking
Developing a ruggedized health monitoring system for military personnel with real-time physiological tracking and predictive analytics for extreme environments.
Coming Soon →Peer-reviewed research contributions
Nano Energy, Volume 138, June 2025
Advanced Electronic Materials, Volume 11, Issue 10, 2025
Comprehensive skill set in hardware, software, and AI
Let's collaborate on innovative research projects
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Daejeon, South Korea
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