This research develops an ultra-low-power, battery-free newborn monitoring system for under-resourced hospitals. Using on-device artificial intelligence and energy harvesting, it continuously detects signs of distress while protecting patient privacy. The technology aims to support overstretched nurses, enable earlier intervention, and reduce preventable newborn deaths worldwide.

This research explores human motion as a renewable energy source using nanogenerators made from nanomaterials. By converting everyday body movement into electricity, the work demonstrates a novel, sustainable approach to reducing reliance on fossil fuels and supporting a cleaner energy future.