Hierarchically Patterned Self-Cleaning Polymer Composites for Daytime Radiative Cooling.
Kai ZhouXiao YanSeung J OhGabriela Padilla-RiveraHyunjung A KimDonald M CropekNenad MiljkovicLili CaiPublished in: Nano letters (2023)
Passive daytime radiative cooling (PDRC) has the potential to reduce energy demand and mitigate global warming. However, surface contamination from dust and bacterial buildup limits practical PDRC applications. Here, we develop a hierarchically patterned nanoporous composite (HPNC) using a facile template-molding fabrication method to integrate PDRC materials with self-cleaning and antibacterial functions. The HPNC design decouples multifunctional control into different characteristic length scales that can be optimized simultaneously. The nanoporous polymer matrix embedded with tunable fillers enables 7.8 and 4.4 °C temperature reduction for outdoor personal and building cooling, respectively, under intense solar irradiance. Meanwhile, a microscale pillar array pattern integrated into the HPNC enables superhydrophobicity with self-cleaning and antisoiling functions to mitigate surface contamination. Moreover, the surface coating of photocatalytic agents can generate photoinduced antibacterial effects. The scalable fabrication and multifunctional capabilities of our HPNC design offer a promising solution for practical PDRC applications with minimal maintenance needs.
Keyphrases
- metal organic framework
- human health
- health risk
- reduced graphene oxide
- risk assessment
- obstructive sleep apnea
- drug delivery
- cancer therapy
- drinking water
- sleep quality
- visible light
- silver nanoparticles
- highly efficient
- low cost
- high throughput
- anti inflammatory
- physical activity
- health risk assessment
- essential oil
- climate change