H. Kim Et Al. , "Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film," ADVANCED FUNCTIONAL MATERIALS , vol.34, no.7, 2024
Kim, H. Et Al. 2024. Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film. ADVANCED FUNCTIONAL MATERIALS , vol.34, no.7 .
Kim, H., Nam, S., DURUKAN, M. B., ÜNALAN, H. E., & Lee, H. J., (2024). Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film. ADVANCED FUNCTIONAL MATERIALS , vol.34, no.7.
Kim, Hyojung Et Al. "Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film," ADVANCED FUNCTIONAL MATERIALS , vol.34, no.7, 2024
Kim, Hyojung Et Al. "Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film." ADVANCED FUNCTIONAL MATERIALS , vol.34, no.7, 2024
Kim, H. Et Al. (2024) . "Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film." ADVANCED FUNCTIONAL MATERIALS , vol.34, no.7.
@article{article, author={Hyojung Kim Et Al. }, title={Self-Charging Dual-Modal Sensor for Glucose Monitoring Based on Piezoelectric Nanowire/Microgel Hybrid Film}, journal={ADVANCED FUNCTIONAL MATERIALS}, year=2024}