A curable composition includes specific amounts of a ketone, a curable component, and particulate poly(phenylene ether) having a mean particle size of 3 to 12 micrometers and a particle size relative standard deviation of 20 to 60 percent. The composition has a low viscosity that facilitates wetting of reinforcing structures, and composites formed from the composition and a reinforcing structure cure to form a dielectric material with a low dielectric constant and loss tangent.

The present invention provides a process for preparing a pre-treated low Dk-type glass fabric for constituting a circuit board, comprising pre-treating low Dk-type glass fabric with a pre-treating varnish having a Dk close to the Dk of the used low Dk-type glass fabric at different temperatures and having a small Df. The present invention further provides a bonding sheet and a circuit board prepared thereby. The circuit boards prepared by the preparation process of the present invention have a Dk having small differences in warp and weft directions, and can effectively solve the problem of signal propagation delay. The circuit boards have a small Df, so as to have a small signal loss. Meanwhile, the cured, partially-cured or uncured dry glue obtained after drying the solvent of the pre-treating varnish has similar dielectric properties at different temperatures to the used low Dk-type glass fabric, so that the circuit boards have a very small signal propagation delay at different temperatures.

The present invention provides a process for preparing a pre-treated low Dk-type glass fabric for constituting a circuit board, comprising pre-treating low Dk-type glass fabric with a pre-treating varnish having a Dk close to the Dk of the used low Dk-type glass fabric at different temperatures and having a small Df. The present invention further provides a bonding sheet and a circuit board prepared thereby. The circuit boards prepared by the preparation process of the present invention have a Dk having small differences in warp and weft directions, and can effectively solve the problem of signal propagation delay. The circuit boards have a small Df, so as to have a small signal loss. Meanwhile, the cured, partially-cured or uncured dry glue obtained after drying the solvent of the pre-treating varnish has similar dielectric properties at different temperatures to the used low Dk-type glass fabric, so that the circuit boards have a very small signal propagation delay at different temperatures.

The present disclosure relates to a method for reducing or preventing colloids adhesion and/or fouling on a substrate in need thereof by forming a coating having a first layer that includes a polyphenol compound, and a second layer that includes a hydrophilic polymer having repeating units derived from one or more zwitterionic monomers, typically one or more betaine monomers, on the substrate. The present disclosure also relates to the coating made thereby and an article having the said coating.

The present disclosure relates to a method for reducing or preventing colloids adhesion and/or fouling on a substrate in need thereof by forming a coating having a first layer that includes a polyphenol compound, and a second layer that includes a hydrophilic polymer having repeating units derived from one or more zwitterionic monomers, typically one or more betaine monomers, on the substrate. The present disclosure also relates to the coating made thereby and an article having the said coating.

The present invention is a material for forming an organic film, containing: (A) a compound for forming an organic film shown by the following general formula (1A); and (B) an organic solvent, where Wi represents a tetravalent or hexavalent organic group, n1 represents an integer of 1 or 2, n2 represents 2 or 3, each R.sub.1 independently represents any in the following formula (1B), and a hydrogen atom of a benzene ring in the formula (1A) is optionally substituted with a fluorine atom. This provides: a compound having a dioxin structure, which is cured even under film formation conditions in inert gas, and which is capable of forming an organic underlayer film having not only excellent heat resistance and properties of filling and planarizing a pattern formed on a substrate, but also favorable film formability and adhesiveness to a substrate; and an organic film material containing the compound.

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The present invention is a material for forming an organic film, containing: (A) a compound for forming an organic film shown by the following general formula (1A); and (B) an organic solvent, where Wi represents a tetravalent or hexavalent organic group, n1 represents an integer of 1 or 2, n2 represents 2 or 3, each R.sub.1 independently represents any in the following formula (1B), and a hydrogen atom of a benzene ring in the formula (1A) is optionally substituted with a fluorine atom. This provides: a compound having a dioxin structure, which is cured even under film formation conditions in inert gas, and which is capable of forming an organic underlayer film having not only excellent heat resistance and properties of filling and planarizing a pattern formed on a substrate, but also favorable film formability and adhesiveness to a substrate; and an organic film material containing the compound.

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An organic electroluminescence device including: an anode and a cathode; and at least one organic thin film layer between the anode and the cathode, wherein one of the organic thin film layer(s) comprises a polymer represented by the following formula (1). ##STR00001##

An organic electroluminescence device including: an anode and a cathode; and at least one organic thin film layer between the anode and the cathode, wherein one of the organic thin film layer(s) comprises a polymer represented by the following formula (1). ##STR00001##

A metal-clad laminate includes an insulating layer, and a metal foil in contact with at least one surface of the insulating layer, in which the insulating layer contains a cured product of a resin composition containing a polyphenylene ether compound, and the metal foil is a metal foil in which a first nickel element amount, on a surface on a side in contact with the insulating layer, measured by X-ray photoelectron spectroscopy is 4.5 at % or less with respect to a total element amount measured by X-ray photoelectron spectroscopy, and a second nickel element amount, on a surface on a side in contact with the insulating layer when the surface is sputtered for 1 minute at a speed of 3 nm/min in terms of SiO2, measured by X-ray photoelectron spectroscopy is 4.5 at % or less with respect to a total element amount measured by X-ray photoelectron spectroscopy.