A. He scite author profile

The phase separation of immiscible surfactants in mixed monolayer films provides an approach to physically manipulate important properties of thin films, including surface morphology, microscale composition, and mechanical properties. In this work, we predict, based upon existing miscibility studies and their thermodynamic underpinnings described in the literature, the miscibility and film morphology of mixed monolayers comprised of behenic acid (C21H43COOH) and perfluorotetradecanoic acid (C13F27COOH) in various molar ratios. Predictions are tested using a combination of experimental surface characterization methods for probing miscibility and film morphology at the solid/air and air/water interfaces. Film components were immiscible and phase-separated into chemically well-defined domains under a variety of experimental conditions, with monolayer morphology consistent with initial predictions. The extensibility of these basic predictions to other systems is discussed in the context of using these works for different perfluorinated surfactant molecules.

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A. He

Electrodeposition of tin: a simple approach

Solid state interfacial reactions in electrodeposited Cu/Sn couples

Room temperature interfacial reactions in electrodeposited Au/Sn couples

Deformation of sapphire (α-Al₂O₃) by basal slip and basal twinning below 700°C

Morphology and Composition of Structured, Phase-Separated Behenic Acid–Perfluorotetradecanoic Acid Monolayer Films

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A. He

Electrodeposition of tin: a simple approach

Solid state interfacial reactions in electrodeposited Cu/Sn couples

Room temperature interfacial reactions in electrodeposited Au/Sn couples

Deformation of sapphire (α-Al2O3) by basal slip and basal twinning below 700°C

Morphology and Composition of Structured, Phase-Separated Behenic Acid–Perfluorotetradecanoic Acid Monolayer Films

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Deformation of sapphire (α-Al₂O₃) by basal slip and basal twinning below 700°C