Included herein are methods for photodriven hydrogenation of N.sub.2, the methods comprising, for example: hydrogenating N.sub.2 to NH.sub.3 in the presence of a light, an organic transfer agent, and a first metal-containing catalyst; wherein: the transfer agent and the first catalyst are in a solution; the transfer agent comprises n chemically transferable electrons and protons, n being an integer equal to or greater than 1; the step of hydrogenating comprises at least one charge-transfer reaction via which the transfer agent donates at least one electron and at least one proton to one or more other chemical species; the step of hydrogenating comprises at least one photochemical reaction; and the light is characterized by energy sufficient to drive the at least one photochemical reaction. Also disclosed herein are methods comprising regenerating a spent-transfer agent back into the transfer agent.

This invention relates to novel hydrogenation catalyst compositions obtainable from reacting metal-based complex hydrogenation catalysts with specific co-catalysts and to a process for selectively hydrogenating nitrile rubbers in the presence of such novel hydrogenation catalyst compositions.

The present disclosure belongs to the technical field of indomethacin synthesis, and discloses a method for synthesizing an indomethacin and an analogue thereof. The method for synthesizing an indomethacin and an analogue thereof includes steps of: introducing an alkyl group, an aromatic ring or a heteroaromatic ring directly at the C2 position of indole, a carboxylic acid fragment at the C3 position of the indole, and an aroyl group at the N1 position of the indole through palladium-catalyzed reactions. The present disclosure solves a problem: most of the existing indomethacin synthesis methods are achieved by construction of an indole ring and modification; simple structural changes of an indomethacin molecule based on this synthetic strategy often require de novo synthesis; the late modification and structure-activity relationship study of the indomethacin molecule have lengthy synthetic steps.

A process for dehydrating methanol to dimethyl ether product in the presence of a solid Brønsted acid catalyst which is an aluminosilicate zeolite or a heteropolyacid and a promoter which is (i) a ketone of formula R.sup.1COR.sup.2 (Formula I) in which R.sup.1 and R.sup.2 are identical or different and are each a C.sub.1-C.sub.11 alkyl group and furthermore R.sup.1 and R.sup.2 together with the carbonyl carbon atom to which they are bonded may form a cyclic ketone; or (ii) a ketal derivative of a ketone of Formula I; and the molar ratio of promoter to methanol is maintained at 0.5 or less.

The present invention relates to a photocatalyst composition having visible light activity for hydrogen production through water splitting. More particularly, the present invention discloses a photocatalyst composition comprising a zinc oxide nanoparticles and a conjugated organic moiety selected from the group consisting of oligothiophenes, azo dyes, and perylenes.

The method for preparing a ferrite-based coating catalyst including mixing a support, a ferrite-based catalyst, a cellulose-based additive, and water, in which a content of the cellulose-based additive is 0.5 wt % or less based on a total weight of the ferrite-based catalyst.

Disclosed are a novel catalyst system which is a catalyst system for selectively oligomerizing olefin including ethylene and may trimerize and tetramerize olefin, different from the catalyst system for olefin oligomerization reported until now, and a method for preparing an olefin oligomer using same. The present invention provides a catalyst system for olefin oligomerization, including a ligand compound represented by Formula 1; a chromium compound; and a metal alkyl compound, and a method for preparing an olefin oligomer using same.

Provided is a method for oligomerization of ethylene, and more particularly, a method for producing 1-hexene and 1-octene at a high selectivity under an ethylene atmosphere by inducing a remarkably improved catalytic activity while effectively reducing a production amount of polyethylene by introducing the oligomerization catalyst and a cocatalyst mixture containing at least two aluminums together and adjusting the kind of oligomerization catalyst and injection conditions thereof.

Described is a catalyst system useful in the production of bisphenol-A comprises (a) an acidic heterogeneous catalyst comprising amorphous silica having organosulfonic acid groups chemically bonded thereto, wherein the catalyst has a pKa value of 3.5 or less; and (b) a catalyst promoter comprising at least one organic sulfur-containing compound.

The invention has as its object a catalyst that comprises a substrate based on alumina or silica or silica-alumina, at least one element from group VIII, at least one element from group VIB, and at least one additive that is selected from among 2-acetylbutyrolactone and/or its hydrolysis products, 2-(2-hydroxyethyl)-3-oxobutanoic acid, and 3-hydroxy-2-(2-hydroxyethyl)-2-butenoic acid. The invention also relates to the method for preparation of said catalyst and its use in a method for hydrotreatment and/or hydrocracking.