A composition for forming protective film against aqueous hydrogen peroxide solution, composition including resin; compound of following Formula (1a), (1b), or (1c): ##STR00001##
(wherein X is carbonyl group or methylene group; 1 and m are each independently integer of 0-5 to satisfy relation: 31+m10; n is integer of 2-5; u and v are each independently integer of 0-4 to satisfy relation: 3u+v8; R.sup.1-R.sup.4 are each independently hydrogen atom, hydroxy group, C.sub.1-10 hydrocarbon group, or C.sub.6-20 aryl group; when R.sup.1-R.sup.4 are each the C.sub.1-10 hydrocarbon group; and j and k are each independently 0 or 1); crosslinking agent and catalyst; and solvent, wherein amount of compound of Formula (1a), (1b), or (1c) is at most 80% by mass relative to amount of resin, and amount of crosslinking agent is 5%-40% by mass relative to amount of resin.

A porous solid compound having high porosity is prepared by controlling the reaction conditions of a compound containing a cyano group and a halogenated metal compound. The porous solid compound includes one or more heterocycles formed by alternately bonding triazine and phenyl or biphenyl wherein the pore volume of the porous solid compound is 5 cm.sup.3/g or more.

A material having a two-dimensional structure can have high strength properties.

A novel photosensitive adhesive composition including the following components (A), (B), (C), and (D): Component (A): a polymer having a structural unit of the following formula (1) and a structure of the following formula (2) at a terminal, Component (B): a polymer having the structural unit of formula (1), and a carboxy group or hydroxy group at a terminal, Component (C): a radical photopolymerization initiator, and Component (D): a solvent, wherein the content by mass of the component (B) is larger than that of the component (A), ##STR00001##
(wherein X is a C.sub.1-6 alkyl group, a vinyl group, an allyl group, or a glycidyl group, m and n are each independently 0 or 1, Q is a divalent C.sub.1-16 hydrocarbon group, Z is a divalent C.sub.1-4 linking group, the divalent linking group being bonded to an O group in formula (1), and R.sup.1 is a hydrogen atom or a methyl group.)

A triazine ring-containing polymer including a structural unit represented by General Formula 1:

*-[A-B-]-*General Formula 1 wherein, in General Formula 1, A is represented by General Formula 2, B is represented by General Formula 3, and * indicates a point linked to another group or structural unit:

##STR00001## wherein, in General Formula 2 and General Formula 3, L, R.sub.1 to R.sub.6, m1, n1, and * are the same as defined in the detailed description.

A triazine ring-containing polymer which contains a repeating unit structure represented by, for example, formula [4] has a high refractive index and also has excellent solubility in various organic solvents including low-polarity solvents, hydrophobic solvents and low-boiling point solvents. A thin film having a high refractive index and excellent transparency can be formed using a composition for film formation use which contains the polymer. ##STR00001##

Provided is a heat-curable resin composition having an excellent workability, and capable of yielding a cured product having both a heat resistance and a low water-absorption property. The heat-curable resin composition contains: (A) a cyanate ester compound having in one molecule at least two cyanato groups, and having a cyanate ester group equivalent of 50 to 140; (B) a cyanate ester compound having in one molecule at least two cyanato groups, and having a cyanate ester group equivalent of 150 to 500; and (C) a curing accelerator,
in which the cyanate ester compound (A) is in an amount of 20 to 85% by mass per a total of 100% by mass of the components (A) and (B), and the cyanate ester compound (B) is in an amount of 15 to 80% by mass per the total of 100% by mass of the components (A) and (B).

A well treatment composition for use in a hydrocarbon-bearing reservoir comprising a reversible aminal gel composition is disclosed. The reversible aminal gel composition includes a liquid precursor composition. The liquid precursor composition is operable to remain in a liquid state at about room temperature. The liquid precursor composition comprises an organic amine composition; an aldehyde composition; and a polar aprotic organic solvent. The liquid precursor composition transitions from the liquid state to a gel state responsive to an increase in temperature in the hydrocarbon-bearing reservoir. The gel state is stable in the hydrocarbon-bearing reservoir at a temperature similar to a temperature of the hydrocarbon-bearing reservoir, and the gel state is operable to return to the liquid state responsive to a change in the hydrocarbon-bearing reservoir selected from the group consisting of: a decrease in pH in the hydrocarbon-bearing reservoir and an addition of excess metal salt composition in the hydrocarbon-bearing reservoir.

The present invention relates to a high-temperature resistant modified silicon-containing cyanate ester resin as well as a preparation method and an application thereof. The preparation method comprises the following steps: adding a mixed solution of hydroxyl silicone oil, a silane coupling agent and an organic solvent into a mixed solution of a tetramethylammonium hydroxide aqueous solution and a polar solvent, performing hydrolytic polycondensation at a temperature of 5-40 C. for 4-8 h, and performing distillation to obtain an epoxy-containing silsesquioxane; performing pre-polymerization on the epoxy-containing silsesquioxane and a cyanate ester resin at a temperature of 50-100 C. for 1-8 h to obtain a modified cyanate ester resin; and uniformly mixing the modified cyanate ester resin and a modified anhydride, thereby obtaining the high-temperature resistant modified silicon-containing cyanate ester resin.

The invention generally relates to novel poly-substituted cis stilbenes, their synthesis, their purification, and their use in thermoset resins. These novel cis stilbenes give rise to thermoset resins with greatly improved processing characteristics such as lower melting temperature and lower viscosity; resulting in polymers and composites having greatly improved thermal stability.