In an interview with K-Mag, Dr Gan Huang talks about the development of this multifunctional material, its special properties and potential applications in architecture and beyond.
Dr Huang, what was the motivation behind the development of the new polymer-based material and what problems was it intended to solve?
Dr Gan Huang: We wanted to address several issues associated with traditional transparent roofs and walls for buildings, such as glare, privacy concerns, and overheating. These problems can make indoor environments uncomfortable, increase energy consumption for cooling, and reduce productivity. Our goal was to create a material that not only allows natural light to enter buildings but also manages light and heat in a way that enhances indoor comfort, reduces energy use, and improves occupant well-being.
Can you explain the special properties of your newly developed material?
Huang: The Polymer-based Micro-Photonic Multi-Functional Metamaterial (PMMM) diffuses 73% of incident sunlight, which reduces glare and provides a more comfortable indoor lighting environment. The material allows 95% of visible light to pass through, which is higher than traditional glass. Additionally, the material has a high emissivity (~0.98) in the mid-infrared range, enabling it to passively radiate heat and cool buildings without consuming electricity. Its superhydrophobic properties with a contact angle of 152° help in keeping the surface clean by repelling water and dust.