Daizhou Li scite author profile

Liquid fluidity is a most key prerequisite for a broad range of technologies, from energy, fluid machineries, microfluidic devices, water, and oil transportation to bio‐deliveries. While from thermodynamics, the liquid fluidity gradually diminishes as temperature decreases until completely solidified below icing points. Here, self‐driven droplet motions are discovered and demonstrated occurring in icing environments and accelerating with both moving distances and droplet volumes. The self‐driven motions, including self‐depinning and continuous wriggling, require no surface pre‐preparation or energy input but are triggered by the overpressure spontaneously established during icing and then continuously accelerated by capillary pulling of frosts. Such self‐driven motions are generic to a broad class of liquid types, volumes, and numbers on various micro‐nanostructured surfaces and can be facilely manipulated by introducing pressure gradients spontaneously or externally. The discovery and control of self‐driven motions below icing points can greatly broaden liquid‐related applications in icing environments.

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Minimizing interface thermal resistance via laser surface micropatterning for enhancing wetting of gallium-based liquid metal with copper

Tian

Chen

et al. 2023

International Journal of Heat and Mass Transfer

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An optimum process window to preferable microstructure distribution and improved macroscopic property for friction stir–assisted incremental aluminum alloy sheet forming

Zhan

Huang

2021

Int J Adv Manuf Technol

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Investigations on the flanging characteristics of advanced high-strength sheet metals with different sheared edge quality

Li²,

Niu³

et al. 2023

Int J Adv Manuf Technol

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Daizhou Li

Boosting water evaporation via continuous formation of a 3D thin film through triple-level super-wicking routes

Self‐Driven Droplet Motions Below their Icing Points

Minimizing interface thermal resistance via laser surface micropatterning for enhancing wetting of gallium-based liquid metal with copper

An optimum process window to preferable microstructure distribution and improved macroscopic property for friction stir–assisted incremental aluminum alloy sheet forming

Investigations on the flanging characteristics of advanced high-strength sheet metals with different sheared edge quality

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