Litcius/Paper detail

Enhanced anti-icing performance via bio-inspired papaver radicatum structuring

Zhekun Chen, Rui Zhou, Minghui Hong

2023Journal of Materials Research and Technology15 citationsDOIOpen Access PDF

Abstract

To avoid the disaster of ice accumulation on outdoor equipment, the construction of photothermal anti-icing surfaces is an efficient approach. Inspired by unique light trapping and photothermal properties of Papaver radicatum growing in latitude 83°40’ N, this work proposes an anti-icing surface with high-efficient photothermal trap capacity and super-hydrophobicity on TC4 via laser processing. The bio-inspired structure shows light harvesting with over 94% absorption in the visible spectrum mainly based on minimizing reflection inside constructed petals-like and rough epidermal micro-structures. With such excellent photothermal behaviors and super-hydrophobicity, the as-prepared sample endows faster temperature rise and higher temperature difference above 15 °C under 1 × 105 Lux simulated Sun luminance. The bio-inspired P. radicatum surface exhibits a strong capacity of anti-icing by inhibiting the nucleation and growth of ice crystals at −30 °C. Meanwhile, this proposed structure can effectively delay the formation of frost under sunlight. The structure shows potential applications on field equipment for enhanced photothermal anti-icing property.

Topics & Concepts

Photothermal therapyMaterials scienceIcingOptoelectronicsPhotothermal effectNanotechnologyChemical engineeringComposite materialMeteorologyEngineeringPhysicsSurface Modification and SuperhydrophobicityIcing and De-icing TechnologiesSolar-Powered Water Purification Methods