Enhancing ECG Monitoring with Wearable Nanosensor

Electrocardiography (ECG) is an essential tool for monitoring heart activity, but conventional electrodes often face limitations such as discomfort, signal degradation, and high contact impedance. This project focuses on developing a wearable nanosensor-based electrode for ECG tracing, enhancing signal acquisition accuracy and user comfort. By integrating nanosensors into the electrode, the system effectively captures bioelectrical signals with minimal interference and improved conductivity. The captured ECG signal involved in signal conditioning circuit comprising amplification and filtering stages to enhance signal clarity. The conditioned signal is displayed in real-time on a user interface, allowing for continuous monitoring and analysis. This wearable nanosensor-based system provides improved flexibility, biocompatibility, and accuracy compared to traditional ECG electrodes. The proposed technology is highly suitable for remote health monitoring, wearable medical devices, and real-time cardiac diagnostics. By leveraging nanotechnology, this project aims to advance ECG monitoring with enhanced portability, reliability, and ease of use, contributing to the development of next-generation personalized healthcare solutions.