An article with controllable wettability includes a substrate and a layer of a composite material supported on the substrate. The layer has an exposed surface and the composite material includes particles that have controllable polarization embedded fully or partially in a matrix. A controller is operable to selectively apply a controlled variable activation energy to the layer. The controllable polarization of the particles varies responsive to the controlled variable activation energy such that a wettability of the exposed surface also varies responsive to the controlled variable activation energy.

In various embodiments, the present invention is directed to contact lenses that utilize a multilayer coating of alternating high RI materials, such as melanin or polydopamine (PDA) and other low RI materials to create tunable iridescent colors and contain melanin or similar materials that impart photoprotection due to their broadband UV-vis absorption spectrum and ability to quench radicals.

A system, apparatus and method enable etching of a layer of a substrate with reduced etching on the surface of a side wall of the layer. The etching method includes forming a protective layer on a surface of the side wall defining a recess in the layer. The protective layer contains phosphorus. The etching method further includes etching the layer in one or more additional cycles so as to increase a depth of the recess after the forming the protective layer.

A medical stent may include a tubular support structure including a plurality of struts defining a plurality of cells disposed between the plurality of struts. A polymeric coating may be disposed over the tubular support structure such that a first portion of the plurality of cells are closed by the polymeric coating in a first region of the tubular support structure and a second portion of the plurality of cells in a second region of the tubular support structure remain open to fluid flow and/or tissue ingrowth therethrough. The struts in the first region of the tubular support structure and the struts in the second region of the tubular support structure may be at least partially covered by the polymeric coating.

The present disclosure provides a hard coat film comprising: a hard coat layer and a primer layer; wherein the primer layer includes a first layer of which transmittance with respect to light having a wavelength of 380 nm is 30% or below, and a second layer of which transmittance with respect to light having a wavelength of 340 nm is 10% or below; the first layer and the second layer are layered, in no particular order, in the position of one surface of the hard coat layer; and a substrate layer is included in the position of the surface of the hard coat layer which is opposite side surface to the primer layer side surface, or in the position of the surface of the primer layer which is opposite side surface to the hard coat layer side surface.

An emulsion ink includes a carrier fluid, pigment particles, and a liquid resin. The carrier fluid is a dielectric, non-aqueous carrier fluid. The pigment particles are within the carrier fluid. The liquid resin is in a dispersed phase within the carrier fluid. The liquid resin is to be polymerized after the ink is applied to a substrate.

In the present invention, a conductive film having low resistance is formed on a substrate, said film having excellent storage stability and high dispersion stability as an ink. A copper oxide ink (1) contains a copper oxide (2), a dispersant (3), and a reducing agent. The content of the reducing agent is in the range of formula (1), and the content of the dispersant is in the range of formula (2). (1) 0.00010≤(reducing agent mass/copper oxide mass)≤0.10 (2) 0.0050≤(dispersant mass/copper oxide mass)≤0.30 The reducing agent content promotes the reduction of copper oxide to copper during firing, and promotes the sintering of copper.

Elastic Parylene films produced via chemical vapor deposition polymerization (CVDP) on a substrate are disclosed.

The present invention addresses the problem of providing a painted metal plate having rain-streak-stain resistance and a good appearance, and a method for producing the same. To solve this problem, the method for producing a painted metal plate includes a step for forming a coating by applying a paint containing a silicone resin and a fluorine-containing resin to the surface of a metal plate and curing the paint, and a step for performing flame treatment on the coating. The silicone resin contains 5 to 50 mol % of a silanol group with respect to the total molar mass of Si atoms.

Plasma systems for depositing biomolecules, pharmaceutical agents, and other therapeutic active agents onto surfaces are described. The systems may include a plasma device having one or more electrodes, a gas supply inlet, a plasma outlet exposed to ambient pressure, and an ignition system operatively connected to the electrodes for providing a non-thermal equilibrium plasma within the plasma chamber. A particulate delivery system may be used to introduce the active agent(s) as a dry powder into or downstream of the plasma, and to deposit the plasma-treated active agent(s) to produce a coating on a surface. The coating may retain the activity of the active agent(s).