Project Keywords:
Energy Efficiency, Cooling Technology, Sustainable Materials, Radiative Cooling, Climate Adaptation
Project Summary
Academic Area:
Project Medium:
Radiative Cooling Technology for Energy Efficiency This self-cooling material reduces temperatures without requiring external energy sources. Available in plastic sheet form or as cooling paint, the technology lowers surface and indoor temperatures, enhancing energy efficiency in homes, buildings, and outdoor applications.
Project Achievements
Project Inspiration
Project Social Impact
By enabling cooling without electricity or mechanical systems, this innovation helps reduce energy consumption and greenhouse gas emissions. The ability to integrate into diverse applications—from building materials to personal wearables—makes it a scalable solution for climate adaptation. This technology supports energy conservation efforts and provides an eco-friendly alternative to traditional cooling systems, contributing to a more sustainable future.
Project Market Demand
By enabling cooling without electricity or mechanical systems, this innovation helps reduce energy consumption and greenhouse gas emissions. The ability to integrate into diverse applications—from building materials to personal wearables—makes it a scalable solution for climate adaptation. This technology supports energy conservation efforts and provides an eco-friendly alternative to traditional cooling systems, contributing to a more sustainable future.