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Fluoropolymer-Containing Opals and Inverse Opals by Melt-Shear Organization (2019)

Kredel, Julia ; Dietz, Christian ; Gallei, Markus

Molecular Diversity Preservation International

In: Molecules. 2019; 24(2): 333. Published 2019 Jan 17. doi: 10.3390/molecules24020333.

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Publication Date: 2019-01-17

Description: The preparation of highly ordered colloidal architectures has attracted significant attention and is a rapidly growing field for various applications, e.g., sensors, absorbers, and membranes. A promising technique for the preparation of elastomeric inverse opal films relies on tailored core/shell particle architectures and application of the so-called melt-shear organization technique. Within the present work, a convenient route for the preparation of core/shell particles featuring highly fluorinated shell materials as building blocks is described. As particle core materials, both organic or inorganic (SiO2) particles can be used as a template, followed by a semi-continuous stepwise emulsion polymerization for the synthesis of the soft fluoropolymer shell material. The use of functional monomers as shell-material offers the possibility to create opal and inverse opal films with striking optical properties according to Bragg’s law of diffraction. Due to the presence of fluorinated moieties, the chemical resistance of the final opals and inverse opals is increased. The herein developed fluorine-containing particle-based films feature a low surface energy for the matrix material leading to good hydrophobic properties. Moreover, the low refractive index of the fluoropolymer shell compared to the core (or voids) led to excellent optical properties based on structural colors. The herein described fluoropolymer opals and inverse opals are expected to pave the way toward novel functional materials for application in fields of coatings and optical sensors.

Electronic ISSN: 1420-3049

Topics: Chemistry and Pharmacology

Published by Molecular Diversity Preservation International

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Surface Structuring of Diamond-Like Carbon Films by Chemical Etching of Zinc Inclusions (2019)

Hatada, Ruriko ; Flege, Stefan ; Rimmler, Berthold ; [et al.]

Molecular Diversity Preservation International

In: Coatings . 2019; 9(2): 125. Published 2019 Feb 18. doi: 10.3390/coatings9020125.

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Publication Date: 2019-02-18

Description: A diamond-like carbon (DLC) film with a nanostructured surface can be produced in a two-step process. At first, a metal-containing DLC film is deposited. Here, the combination of plasma source ion implantation using a hydrocarbon gas and magnetron sputtering of a zinc target was used. Next, the metal particles within the surface are dissolved by an etchant (HNO3:H2O solution in this case). Since Zn particles in the surface of Zn-DLC films have a diameter of 100–200 nm, the resulting surface structures possess the same dimensions, thus covering a range that is accessible neither by mask deposition techniques nor by etching of other metal-containing DLC films, such as Cu-DLC. The surface morphology of the etched Zn-DLC films depends on the initial metal content of the film. With a low zinc concentration of about 10 at.%, separate holes are produced within the surface. Higher zinc concentrations (40 at.% or above) lead to a surface with an intrinsic roughness.

Electronic ISSN: 2079-6412

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Published by Molecular Diversity Preservation International

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