The present invention is directed to a coating composition comprising a film-forming binder; and a corrosion inhibitor comprising at least one of morpholines, monosulfides, and/or piperazines. The present invention is also directed to coatings, coated metal substrates, multi-layered coated metal substrates, and methods of coating substrates.

Provided are an ink composition including (A) semiconductor nanorods; and (B) a mixed solvent including a first solvent including a compound represented by Chemical Formula 1 and a second solvent including a compound represented by Chemical Formula 2, a layer manufactured using the ink composition, and an electrophoresis device, and a display device including the same. The definition of Chemical Formula 1 and Chemical Formula 2 is the same as the specification.

An electrophoretic medium including a mixture of charge control agents, for example quaternary amine salts of polyisobutylene combined with quaternary amine salts of unsaturated monomers. The described electrophoretic medium exhibits improved color saturation as compared to similar electrophoretic media having only one of the charge control agents.

The present disclosure is directed to an electrodepositable coating composition comprising a hydroxyl-functional addition polymer comprising constitutional units, at least 70% of which comprise formula (I): [C(R.sup.1).sub.2C(R.sup.1)(OH)] (I), wherein each R.sup.1 is independently one of hydrogen, an alkyl group, a substituted alkyl group, a cycloalkyl group, a substituted cycloalkyl group, an alkylcycloalkyl group, a substituted alkylcycloalkyl group, a cycloalkylalkyl group, a substituted cycloalkylalkyl group, an aryl group, a substituted aryl group, an alkylaryl group, a substituted alkylaryl group, a cycloalkylaryl group, a substituted cycloalkylaryl group, an arylalkyl group, a substituted arylalkyl group, an arylcycloalkyl group, or a substituted arylcycloalkyl group; an ionic salt group-containing film-forming polymer comprising active hydrogen functional groups; a blocked polyisocyanate curing agent comprising blocking groups, wherein the blocking groups comprise a 1,2-polyol as a blocking agent; and a bismuth catalyst.

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A method is provided for creating a porous coating on a surface of a substrate by electrodeposition. The substrate is a part of the cathode. An anode is also provided. A coating is deposited or disposed on the surface by applying a voltage that creates a plurality of porous structures on the surface to be coated. Continuing to apply a voltage creates additional porosity and causes portions of the attached porous structures to detach. A covering layer is created by applying a voltage that creates a thin layer that covers the attached porous structures and the detached portions which binds the porous structures and detached portions together.

The present invention concerns a method for increasing the adhesion between a chromium surface and a lacquer wherein said chromium surface is contacted with an aqueous solution comprising at least one phosphorous compound according to formulae R.sup.1P(O)(OR.sup.2)(OR.sup.3) 1 and R.sup.1OP(O)(OR.sup.2)(OR.sup.3) 2 wherein R.sup.1 is a C.sub.1 to C.sub.12 alkyl group, linear, branched or cyclic comprising at least one polar residue and R.sup.2 and R.sup.3 are independently selected from the group consisting of hydrogen, lithium, sodium, potassium, ammonium and C.sub.1 to C.sub.4 alkyl while passing an external electrical current through said substrate and at least one anode wherein said substrate serves as the cathode.

An electrophoretic particle includes a base particle (particle), a first compound, a second compound, and a third compound bonded to the base particle. The first compound is a polymer having a dispersion portion derived from a first monomer, and a bonding portion derived from a second monomer, and is connected to the base particle at the bonding portion. The second compound includes a non-polar group and a second functional group and is connected to the base particle at the second functional group. The third compound includes a charging group and a second functional group and is connected to the base particle at the second functional group.

The invention relates to a method for producing a timepiece component, characterised in that it comprises an electrodeposition step consisting in depositing an alloy on a substrate, forming at least one flank of the timepiece component with a thickness greater than or equal to 50 m, said electrodeposition step being carried out with an electrolyte solution comprising a nickel-containing compound and a second nickel-free compound at concentrations such that the alloy obtained comprises between 91 and 99.8 wt.-% nickel and between 0.2 and 6 wt.-%, or even between 0.2 and 4 wt.-%, of a second element from the second compound.

A method of forming an aerosol-generating component of an aerosol-generating system, and a system for forming an aerosol-generating component of an aerosol-generating system, the method comprising: submerging at least a portion of a heating element (1) in a deposition liquid (6): submerging at least a portion of an auxiliary electrode (4) in the deposition liquid (6): and supplying a voltage between the heating element (1) and the auxiliary electrode (4) to deposit an aerosol-forming substrate on the heating element (1) by electrophoretic deposition.

Provided is an electrophoretic coating solution, comprising 100 parts by weight of microcapsules modified with an olefinic aldehyde compound; 1 to 20 parts by weight of a resin monomer and/or an unsaturated resin; and 50 to 100 parts by weight of a solvent. Also provided are an electrophoretic display panel and a display device. In this solution, the electrophoretic coating solution has good dispersibility, and the yield of the electrophoretic display panel is improved.