A coating for mitigating metal whiskers on a metal surface includes a polymeric coating material; and a metal ion complexing agent impregnated within the polymeric coating material, the metal ion complexing agent having a standard reduction potential (E) that is greater than a metal in the metal surface.

A coating for mitigating metal whiskers on a metal surface includes a polymeric coating material; and a metal ion complexing agent impregnated within the polymeric coating material, the metal ion complexing agent having a standard reduction potential (E) that is greater than a metal in the metal surface.

An opto-electronic device includes a substrate, a first electrode disposed over the substrate, a semiconducting layer disposed over the first electrode, a second electrode disposed over the semiconducting layer, the second electrode having a first portion and a second portion, a nucleation inhibition coating disposed over the first portion of the second electrode; and a conductive coating disposed over the second portion of the second electrode, wherein the nucleation inhibition coating is a compound of Formula (I).

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

Protective coatings with one or more additives dispersed therethrough are disclosed. A protective coating may comprise a poly(p-xylylene), or parylene. An additive may be configured to cause the protective coating to contrast (e.g., visibly, etc.) with features or components that are exposed beyond a periphery of the protective coating. Additives that provide other characteristics are also disclosed. In addition, methods for applying protective coatings according to this disclosure are disclosed, as are inspection methods.

Protective coatings with one or more additives dispersed therethrough are disclosed. A protective coating may comprise a poly(p-xylylene), or parylene. An additive may be configured to cause the protective coating to contrast (e.g., visibly, etc.) with features or components that are exposed beyond a periphery of the protective coating. Additives that provide other characteristics are also disclosed. In addition, methods for applying protective coatings according to this disclosure are disclosed, as are inspection methods.

The present invention relates to the design, fabrication and applications of three-dimensional (3D) bioreactor for cell expansion and cell secreted substance production. The bioreactors have relatively low levels of potentially cytotoxic compounds, can be coated with substituted or unsubstituted poly(p-xylene) type coatings and can also be separately formed from liquid crystal photopolymerizable monomers.

The present invention relates to the design, fabrication and applications of three-dimensional (3D) bioreactor for cell expansion and cell secreted substance production. The bioreactors have relatively low levels of potentially cytotoxic compounds, can be coated with substituted or unsubstituted poly(p-xylene) type coatings and can also be separately formed from liquid crystal photopolymerizable monomers.

The described invention relates to the use of parylene and composites of parylene as a flexible, sealable, and near hermetic barrier packaging material for nonaqueous electrochemical cells. Additionally, the invention relates to the technique of sealing of battery packaging material through the use of ultrasonic energy, and to the use of a low melting temperature inorganic barrier, which is predisposed between higher melting temperature polymer layers, that can be sealed to form a truly hermetic barrier at the interface.

An article comprises a carbon fibre reinforced plastic (CFRP) substrate, a buffer layer disposed adjacent the substrate, the buffer layer comprising a poly(para-xylylene) polymer; and a moisture barrier coating disposed adjacent the buffer layer.