Introduction:
On a hot July day, what you wear to stay cool matters. There are common remedies to help you stay cool: wearing cotton and light colors to allow for air circulation and light reflection. Some textiles, like wool, insulate heat to help you stay cool during the winter months and others, like polyester, prevent sweat from absorbing into its fibers. As global temperatures rise and daily heat records are broken more often, these traditional “summer” fabrics can only do so much to keep you cool because of their one big drawback: they trap the body’s infrared radiation induced heat (Tang, 2025).
The body is always emitting infrared radiation, but this radiation typically is let off into the air. However, fabrics like wool, polyester, and cotton, absorb or reflect this radiation back to your body and trap heat. This problem is exactly what scientists studying radiative cooling textiles hope to combat (Yu et al., 2025).
What Scientists are Doing:
Researchers are reengineering textiles at the molecular level to design radiative cooling textiles that release the infrared radiation the body lets off instead of reflecting it back to the body like traditional textiles (Tang, 2025). These thermoregulating textiles focus on the movement of heat and light through fibers rather than just controlling airflow and moisture retention. Through the careful design of specific polymers, coating fibers, and embedding of nanoparticles, how radiation interacts with fabric can be manipulated. For example, some of these textiles have been made from engineering polyethylene that reflects visible light but is transparent to infrared radiation, allowing for heat to escape from the body (Yu et al., 2025).
Outside of science labs, early prototypes of these thermal textiles are being tested by research teams and companies. Specifically, several research teams, like brrro and IRCool textiles at Stanford University, are testing radiative cooling textiles that appear to lower body temperature by a few degrees even in the direct sun, which is a major development as extreme heat events become more common (Yu et al., 2025). Additionally, these thermal textiles are being tested for use as athletic wear and for architectural purposes (Tang, 2025).
Not Quite Cool Enough, Yet:
Despite major developments in the use of these thermal textiles, there are still several challenges that textile researchers are facing. One of the major problems is that polyethylene, the main polymer being used in these thermal textiles, is difficult to recycle, receiving criticism from environmental activists (Tang, 2025). Additionally, these polymers are difficult to dye due to their amorphous structure, limiting their aesthetic uses in industry. While radiative cooling textiles offer a promising improvement in keeping you cool in the warmer months, their presence remains primarily in the researching and prototype phases rather than the mass-market clothing industry (Yu et al., 2025).
Conclusion:
As temperatures continue to rise, the fabrics we wear have an ever important role in keeping us cool and safe. Radiative cooling textile advancements show how science intersects design to create clothing that works with the body’s heat flow for maximized comfort and functionality. While there is a long road ahead of these textiles becoming commercially available, their innovation marks a step towards cooler clothing.
References:
Tang, B. (2025). Recent progress in the development of radiative cooling textiles. Nanomanufacturing, 5(2), 22. https://www.mdpi.com/2673-7248/5/2/22
Yu, Z., Zhang, L., & Li, Y. (2025). Next-generation passive cooling textiles for personal thermal management. Nano Research Energy, 4(1), 713-725. https://link.springer.com/article/10.1007/s40820-025-01713-4
