ORGANIC PEROXIDES

Brand Owner (click to sort) Address Description
AIR ARKEMA INC. 900 First Avenue King of Prussia PA 19406 Organic peroxides, organic peroxide formulations, and mixtures containing the same, for industrial use as a curative in the rubber industry;
ALPEROX ARKEMA, INC. 2000 Market Street Philadelphia PA 19103 ORGANIC PEROXIDES;
AZTEC Phillips Petroleum Company Bartlesville OK ORGANIC PEROXIDES;
AZTEC AZTEC CHEMICALS, INC. 545 ELM ST. ELYRIA OH ORGANIC PEROXIDES;
PEROXYMON NOF CORPORATION 20-3, Ebisu 4-chome Shibuya-ku; Tokyo 150-6019 Japan Organic peroxides; chemicals for initiating polymerization; curing agents; chemicals in the nature of crosslinking agents, not for medical use; chemical additives for use in the manufacture of polymers; chemical additives for use in the manufacture of paints; chemical additives for use in the manufacture of rubbers; chemical additives in the nature of resin modifiers; catalysts for use in chemical processes; diagnostic reagents for chemical use, other than for medical or veterinary purposes; dispersing chemical agents; initiating reagents for halogenation, not for medical use; vulcanising chemical preparations; industrial chemicals; unprocessed synthetic resins; unprocessed plastics;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. The invention relates to a method for producing monocarbonyl compounds or biscarbonyl compounds or hydroxyl compounds by ozonizing, unsaturated organic carbon compounds that, per molecule, have one or more olefinic or aromatic double bonds, which can be cleaved by ozone, and by subsequently processing the ozonization products. According to the inventive method, unsaturated organic carbon compounds that, per molecule, have one or more olefinic or aromatic double bonds, which can be cleaved by ozone, are: (a) in 1 to 2 steps, continuously reacted with ozone in stoichiometric quantities or in excess while using counter educt currents and being in an organic solvent or in an aqueous solution inside a device, which consists of one to two absorption apparatuses, of devices for carrying away reaction heat, and of devices for separating the gas and liquid phases, and; (b) the peroxides resulting therefrom are, according to reaction parameters from step (a), converted into the corresponding monocarbonyl compounds or biscarbonyl compounds or hydroxyl compounds either by continuous or discontinuous hydrogenation, oxidation or heating.