EPICS: Nanorod-based Breakthrough for Non-Invasive Uric Acid Monitoring Gallery EPICS: Nanorod-based Breakthrough for Non-Invasive Uric Acid Monitoring News EPICS: Nanorod-based Breakthrough for Non-Invasive Uric Acid Monitoring Researchers at Purdue University have introduced EPICS, a [...] POWDERTECHNOLOGY.info2024-10-31T12:54:19+00:007 December 2023|Categories: News|Tags: Biocompatible, Continuous Monitoring, Electrochemical Potential Windows, Electrochemically-Active Surface Area, EPICS, Flexible Electrochemical Sensor, Health Diagnostics, Health Technology, Human Body Integration, Indium Tin Oxide, ITO-PET, Limit of Detection, Nano Energy, Nanorod-based, Piezo-electrocatalytic device, Piezoelectric Effect, Purdue University, Raman Spectroscopy, Reduced Graphene Oxide, Remote Analysis, Sensitivity, Uric Acid Monitoring, Uric Acid Sensor, ZnO Nanorods|0 Comments Read More