D. Raps scite author profile

Ice formation can have catastrophic consequences for human activity on the ground and in the air. Here we investigate water freezing delays on untreated and coated surfaces ranging from hydrophilic to superhydrophobic and use these delays to evaluate icephobicity. Supercooled water microdroplets are inkjet-deposited and coalesce until spontaneous freezing of the accumulated mass occurs. Surfaces with nanometer-scale roughness and higher wettability display unexpectedly long freezing delays, at least 1 order of magnitude longer than typical superhydrophobic surfaces with larger hierarchical roughness and low wettability. Directly related to the main focus on heterogeneous nucleation and freezing delay of supercooled water droplets, the observed ensuing crystallization process consisted of two distinct phases: one very rapid recalescent partial solidification phase and a subsequent slower phase. Observations of the droplet collision process employed for the continuous liquid mass accumulation up to the point of ice formation reveal a previously unseen atmospheric-pressure, subfreezing-temperature regime for liquid-on-liquid bounce. On the basis of the entropy reduction of water near a solid surface, we formulate a modification to the classical heterogeneous nucleation theory, which predicts the observed freezing delay trends. Our results bring to question recent emphasis on super water-repellent surface formulations for ice formation retardation and suggest that anti-icing design must optimize the competing influences of both wettability and roughness.

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Active protection coatings with layered double hydroxide nanocontainers of corrosion inhibitor

Zheludkevich

et al. 2010

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Enhancement of Active Corrosion Protection via Combination of Inhibitor-Loaded Nanocontainers

Tedim

Poznyak

Kuznetsova

et al. 2010

ACS Appl. Mater. Interfaces

314

141

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The present work reports the synthesis of layered double hydroxides (LDHs) nanocontainers loaded with different corrosion inhibitors (vanadate, phosphate, and 2-mercaptobenzothiazolate) and the characterization of the resulting pigments by X-ray diffraction (XRD) and transmission electron microscopy (TEM). The anticorrosion activity of these nanocontainers with respect to aluminum alloy AA2024 was investigated by electrochemical impedance spectroscopy (EIS). The bare metallic substrates were immersed in dispersions of nanocontainers in sodium chloride solution and tested to understand the inhibition mechanisms and efficiency. The nanocontainers were also incorporated into commercial coatings used for aeronautical applications to study the active corrosion protection properties in systems of industrial relevance. The results show that an enhancement of the active protection effect can be reached when nanocontainers loaded with different inhibitors are combined in the same protective coating system.

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Electrochemical study of inhibitor-containing organic–inorganic hybrid coatings on AA2024

Raps

Hack²,

Wehr³

et al. 2009

Corrosion Science

201

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D. Raps

Are Superhydrophobic Surfaces Best for Icephobicity?

Active protection coatings with layered double hydroxide nanocontainers of corrosion inhibitor

Enhancement of Active Corrosion Protection via Combination of Inhibitor-Loaded Nanocontainers

Electrochemical study of inhibitor-containing organic–inorganic hybrid coatings on AA2024

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