The lens of the present invention includes an indole-based compound represented by General Formula (1), and a polycarbonate resin having a weight average molecular weight of 40,000 to 60,000, wherein the content of the indole-based compound is 0.01 to 0.8 parts by mass with respect to 100 parts by mass of the polycarbonate resin,

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The present invention relates to a novel process for preparing isocyanurate-comprising polyisocyanates of (cyclo)aliphatic diisocyanates that are especially stable to color drift in solvents.

The present invention relates to a novel process for preparing isocyanurate-comprising polyisocyanates of (cyclo)aliphatic diisocyanates that are especially stable to color drift in solvents.

The invention relates a polymer composition comprising polyethylene and a stabiliser package comprising: a) a phenolic stabiliser or mixtures thereof, b) an organic phosphite and/or phosphonite or mixtures thereof, c) zinc sulphide, and d) an acid scavenger. The polymer composition can be applied in the production of articles which are used in applications where a high temperature resistance is needed.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture comprising a material containing a flame-retardant polyetheretherketone based polymer are disclosed. The flame-retardant compound includes two or more polyetheretherketone polymer chains and at least one flame-retardant aryl diamine cross-linker moiety, wherein the flame-retardant aryl diamine cross-linker moiety contains at least one flame-retardant functional group. The process includes selecting a flame-retardant aryl diamine, wherein the flame-retardant aryl diamine contains at least one flame-retardant functional group, selecting a polyetheretherketone polymer, and reacting the flame-retardant aryl diamine with the polyetheretherketone polymer to form a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers, wherein the flame-retardant aryl diamine cross-linkers contain the at least one flame-retardant functional group. The article of manufacture includes a material containing a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture comprising a material containing a flame-retardant polyetheretherketone based polymer are disclosed. The flame-retardant compound includes two or more polyetheretherketone polymer chains and at least one flame-retardant aryl diamine cross-linker moiety, wherein the flame-retardant aryl diamine cross-linker moiety contains at least one flame-retardant functional group. The process includes selecting a flame-retardant aryl diamine, wherein the flame-retardant aryl diamine contains at least one flame-retardant functional group, selecting a polyetheretherketone polymer, and reacting the flame-retardant aryl diamine with the polyetheretherketone polymer to form a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers, wherein the flame-retardant aryl diamine cross-linkers contain the at least one flame-retardant functional group. The article of manufacture includes a material containing a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture comprising a material containing a flame-retardant polyetheretherketone based polymer are disclosed. The flame-retardant compound includes two or more polyetheretherketone polymer chains and at least one flame-retardant aryl diamine cross-linker moiety, wherein the flame-retardant aryl diamine cross-linker moiety contains at least one flame-retardant functional group. The process includes selecting a flame-retardant aryl diamine, wherein the flame-retardant aryl diamine contains at least one flame-retardant functional group, selecting a polyetheretherketone polymer, and reacting the flame-retardant aryl diamine with the polyetheretherketone polymer to form a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers, wherein the flame-retardant aryl diamine cross-linkers contain the at least one flame-retardant functional group. The article of manufacture includes a material containing a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers.

A limonene-based flame-retardant compound, a method of making a flame-retardant polymer, and an article of manufacture comprising a material that includes a limonene-based flame-retardant compound are provided. In an embodiment, the method includes forming a limonene-based derivative; forming a phosphorus-based flame-retardant molecule; reacting the limonene-based derivative with the phosphorus-based flame-retardant molecule to form a limonene-based flame-retardant compound; and forming a flame-retardant polymer from the limonene-based flame-retardant compound. In some embodiments, the limonene-based flame-retardant compound has variable functionality including vinyl, epoxide, methylene bridges, and thioethers.

A limonene-based flame-retardant compound, a method of making a flame-retardant polymer, and an article of manufacture comprising a material that includes a limonene-based flame-retardant compound are provided. In an embodiment, the method includes forming a limonene-based derivative; forming a phosphorus-based flame-retardant molecule; reacting the limonene-based derivative with the phosphorus-based flame-retardant molecule to form a limonene-based flame-retardant compound; and forming a flame-retardant polymer from the limonene-based flame-retardant compound. In some embodiments, the limonene-based flame-retardant compound has variable functionality including vinyl, epoxide, methylene bridges, and thioethers.

The present invention relates to stabilizers for thiol-ene compositions and to radiation curable thiol-ene compositions based thereon. Such radiation curable compositions can advantageously be used in inks, overprint varnishes, coatings, adhesives, for the making of 3D objects and for the making of solder resist and gel nails.

Provided in particular is an inhibitor system (I) for thiol-ene compositions based on at least one inhibitor compound (i) having a % DPPH radical scavenging activity of at least 90%, the inhibitor compound (i) being selected from substituted benzene compounds or substituted naphthalene compounds containing at least two substituents selected from the group consisting of hydroxyl groups and C1-C3 alkoxy groups bonded directly to the benzene or the naphthalene ring, at least one acidic compound (ii) having a pKa between 1 and 3, and at least one compound (iii) selected from the group consisting of phosphites and phosphonites,
with the proviso that if the inhibitor compound (i) is a substituted benzene that it contains at least two hydroxyl groups bonded directly to the benzene ring.

Also provided is an inhibitor system (II) for thiol-ene compositions based on that is based on at least one inhibitor compound (i) having a % DPPH radical scavenging activity of at least 90%, the inhibitor compound (i) being selected from substituted benzene compounds or substituted naphthalene compounds containing at least two substituents selected from the group consisting of hydroxyl groups and C1-C3 alkoxy groups bonded directly to the benzene or the naphthalene ring, at least one compound (iv) selected from the group consisting of spirophosphites, and optionally, at least one acidic compound (ii) having a pKa between 1 and 3, and
with the proviso that if the inhibitor compound (i) is a substituted benzene that it contains at least two hydroxyl groups bonded directly to the benzene ring.