PolyU Unveils iActive: The Future Of Sweat-Free Sportswear
Sweat-soaked sportswear can become clingy and cumbersome, causing discomfort and potentially impacting performance. In response to this issue, a research team from the School of Fashion and Textiles at The Hong Kong Polytechnic University (PolyU) has developed the iActive sportswear range. This innovative sportswear features a root-like liquid transport system, a skin-like active perspiration dissipater and utilizes nature-inspired, anti-heat textile fabrics to expedite sweat removal, effectively reducing the weight and stickiness caused by sweat accumulation during exercise.
The human body has millions of sweat glands that are vital for regulating body temperature by dissipating sweat for evaporation to cool the skin’s surface. With unabating greenhouse gas emissions, the number of very hot days annually is expected to increase significantly. This will lead to elevated energy consumption and increased sweating during physical activity and outdoor labour. Even when wearing highly breathable clothes with good sweat-wicking properties, individuals may still experience discomfort due to excessive sweat accumulation.
A research team led by Dr Shou Dahua, Limin Endowed Young Scholar in Advanced Textiles Technologies and Associate Professor at the School of Fashion and Textiles at PolyU, has invented the groundbreaking iActive, intelligent, electrically activated sportswear with a nature-inspired active perspiration function. This pioneering innovation has garnered significant recognition, including a Gold Medal at the 49th International Exhibition of Inventions Geneva this April.
Its nature-inspired technologies include low-voltage-driven artificial “sweat glands” created by skin-like anti-heat textile fabrics and a root-like branching liquid transport system that aligns with the body’s sweat map. These can actively and programmably transport sweat to a perspiration dissipater at the lower region of the sportswear and quickly remove it as liquid droplets. The all-textile sweat dissipater is compact and operates at a safe output voltage of approximately 5-9V, and its battery is easy to detach from the clothing, making it convenient for users to repeatedly wash the clothing by hand or in a washing machine to maintain hygiene. When the human body’s sweat rate is low, iActive can still be used independently without the battery.
Based on the optimized wettability pattern and gradient, the research team utilizes a skin-like textile fabric to transport sweat one-way quickly and dissipate it directionally from the inside to the outside. This feature reduces the stickiness and weight of clothing, improves breathability and ensures the garments remain dry and comfortable to wear. Experimental findings indicate that iActive creates a breathable and dry skin microclimate by dissipating sweat at a rate three times faster than the maximum human sweating rate. This innovation can also prevent discomfort from coldness and moisture after a workout. Compared to traditional fabrics, the textile materials in iActive are 60% lighter and 50% less clingy when soaked, providing the wearer with all-round comfort and enabling sports enthusiasts and athletes to perform at their best.
Furthermore, a mobile app further aids personalized sweat management by wirelessly adjusting the sweat level of iActive. This innovation is versatile and can be seamlessly integrated into a variety of textile materials to facilitate sustainable mass production. Beyond sportswear, iActive is also well-suited to protective clothing and workwear for individuals engaged in prolonged, high-intensity physical labour and outdoor occupations, including healthcare professionals, construction workers, firefighters, law enforcement officers, and others, significantly enhancing their work performance.
Dr Shou Dahua stated, “The extreme weather and high temperatures resulting from global warming have elevated the importance of heatstroke prevention and cooling measures on a global scale. Drawing on the vivid phenomena of thermal insulation and directed liquid flow in nature, we aim to foster innovation and sustainable advancement in garment manufacturing by inventing intelligent clothing and materials to address global challenges. We seek to harness the power of technology to infuse fresh perspectives into the traditional clothing industry, thereby enhancing its competitiveness.”
His research team has also developed a premium fabric named Omni-Cool-Dry, drawing inspiration from volcano-dwelling beetles. This fabric not only provides ultra-fast sweat dissipation and ensures all-day comfort with its dry and breathable features under dynamic thermal conditions, but also reflects solar radiation and emits body heat into the cold universe, enabling passive cooling. The team is working hard to leverage the benefits of both inventions to further enhance the sweat-dissipating and cooling capability of iActive sportswear.
Dr Shou Dahua, a core member of the PolyU Research Institute for Intelligent Wearable Systems and the Research Centre of Textiles for Future Fashion, has recently been bestowed with the 2023 Distinguished Achievement Award by The Fiber Society for his outstanding contributions to the fields of personal thermal and moisture management, intelligent wearables and soft robotics. The accolade is presented annually to an individual researcher worldwide. He has also received international innovation awards, including consecutive TechConnect Global Innovation Awards in 2021 and 2022.
