The invention provides a method for producing a dichloro addition product of an aliphatic olefin by photocatalysis under visible light. The method includes reacting an aliphatic olefin as a substrate with hydrochloric acid as a chlorine source in an organic solvent under visible light irradiation in the presence of copper chloride with visible light absorption ability as a catalyst, to obtain the dichloro addition product of the aliphatic olefin, wherein the reaction is carried out under an oxygen-containing atmosphere, the aliphatic olefin comprises a carbon-carbon double bond and a C9-C15 aliphatic chain connected to the carbon-carbon double bond by a covalent bond. In the invention, visible light is used to provide the energy and a transition metal chloride with visible light absorption ability is used to undergo light-induced electron transfer from chloride with a reaction substrate, thereby initiating an addition reaction to obtain a dichloro addition product.

The present invention provides a sulfonium salt photoinitiator, a preparation method therefor, a photocurable composition comprising sulfonium salt photoinitiator, and use thereof. The sulfonium salt photoinitiator has a structure represented by formula (I). By modifying the structure of an existing sulfonium salt photoinitiator, a sulfonium salt photoinitiator having a new structure is obtained, which can exhibits a higher photosensitivity and an excellent as well as characteristics of low odor and low toxicity, when being used in a photocurable composition. This is significantly superior to existing similar photoinitiators.

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Sulfonated reaction products formed from internal vinylidene olefins may display surfactant properties differing from those of the corresponding reaction products formed from sulfonation of alpha olefins and internal olefins having a like number of carbon atoms. Methods for sulfonating internal vinylidene olefins may comprise: providing an internal vinylidene olefin comprising a vinylidene group; exposing the internal vinylidene olefin to a sulfonating reagent; and reacting the sulfonating reagent with the internal vinylidene olefin to form a sulfonated reaction product comprising at least one sulfonated compound formed from the internal vinylidene olefin. Suitable sulfonation conditions may include sulfur trioxide as a sulfonating reagent under thin film or falling film conditions.

Sulfonated reaction products formed from internal vinylidene olefins may display surfactant properties differing from those of the corresponding reaction products formed from sulfonation of alpha olefins and internal olefins having a like number of carbon atoms. Methods for sulfonating internal vinylidene olefins may comprise: providing an internal vinylidene olefin comprising a vinylidene group; exposing the internal vinylidene olefin to a sulfonating reagent; and reacting the sulfonating reagent with the internal vinylidene olefin to form a sulfonated reaction product comprising at least one sulfonated compound formed from the internal vinylidene olefin. Suitable sulfonation conditions may include sulfur trioxide as a sulfonating reagent under thin film or falling film conditions.

A process for preparing a nitrated compound, including the step of reacting a compound (A) including at least one substituted or unsubstituted aromatic or heteroaromatic ring, wherein the heteroaromatic ring includes at least one heteroatom selected from the group consisting of oxygen, sulfur, phosphor, selenium and nitrogen, with a compound of formula (I)

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wherein Y is selected from the group consisting of hydrogen and nitro.

A process for preparing a nitrated compound, including the step of reacting a compound (A) including at least one substituted or unsubstituted aromatic or heteroaromatic ring, wherein the heteroaromatic ring includes at least one heteroatom selected from the group consisting of oxygen, sulfur, phosphor, selenium and nitrogen, with a compound of formula (I)

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wherein Y is selected from the group consisting of hydrogen and nitro.

The present invention relates to a process for the preparation of arylsulfonylpro-penenitriles. The reaction starting from arylsulfonyl halides is catalyzed by a cat-alyst compound comprising a transition metal. The process is scalable, environ-mentally benign and provides the product in good yield.

The present invention relates to a process for the preparation of arylsulfonylpro-penenitriles. The reaction starting from arylsulfonyl halides is catalyzed by a cat-alyst compound comprising a transition metal. The process is scalable, environ-mentally benign and provides the product in good yield.

The present invention relates to a process for the preparation of arylsulfonylpro-penenitriles. The reaction starting from arylsulfonyl halides is catalyzed by a cat-alyst compound comprising a transition metal. The process is scalable, environ-mentally benign and provides the product in good yield.

The present invention relates to a process for the preparation of aromatic carbonyl compounds of formula I, which can be obtained through reaction of compounds of formula II with molecular oxygen in the presence of a solvent and a catalyst, which is composed of a cobalt(II) salt and N,N′,N″-trihydroayisocyanuric acid (THICA).