Litcius/Paper detail

Super-spreading on superamphiphilic micro-organized nanochannel anodic aluminum oxide surfaces for heat dissipation

Zhongpeng Zhu, Yupeng Chen, Zhe Xu, Zhenwei Yu, Xianfeng Luo, Jiajia Zhou, Ye Tian, Lei Jiang

2021iScience28 citationsDOIOpen Access PDF

Abstract

Nature-inspired superamphiphilic surfaces have drawn tremendous attention owing to its extreme liquid-loving behaviors. Herein, a micro-organized nano-channel (Mo-Na) superamphiphilic anodic aluminum oxide (AAO) surface with long-lasting superamphiphilic property is prepared by a facile one-step anodization method with controllable temperature change. Analysis of dynamic wetting behaviors on superamphiphilic Mo-Na AAO surfaces for various liquids reveals that the spreading factor is in negative correlation with the surface tension and liquid polarity. Detailed observation of the three-phase contact line shows a micro-scale capillary film on superamphiphilic Mo-Na AAO surfaces, which results from the horizontal component of the capillary force. Taking advantage of the superamphiphilic property, water droplets can spread completely on these Mo-Na AAO surfaces within a short time, which can be applied for efficient heat dissipation. Moreover, the unique AAO surface with Mo-Na structures also offers an effective template for future efforts in AAO-based composite devices.

Topics & Concepts

WettingAnodic Aluminum OxideAnodizingMaterials scienceSurface tensionOxideNanotechnologyCapillary actionNano-AnodeDissipationNanofluidicsAluminiumChemical engineeringComposite materialMetallurgyChemistryElectrodeThermodynamicsFabricationAlternative medicinePathologyMedicinePhysicsPhysical chemistryEngineeringSurface Modification and SuperhydrophobicityAdvanced Sensor and Energy Harvesting MaterialsFluid Dynamics and Thin Films