An alkylation catalyst composition is provided which comprises an acid, an aromatic, and a third component selected from the group consisting of a base capable of forming an ionic liquid with the acid; and an ionic liquid. An alkylation process is also provided which comprises combining the alkylation catalyst composition with a feedstock under conditions to produce an alkylate product for a motor fuel additive. The alkylate product produced by the alkylation process is also provided.

The present application discloses a 3,3,3′,3′-tetramethyl-1,1′-spirobiindane-based phosphine ligand, an intermediate, a preparation method and uses thereof. The compound of phosphine ligand is a compound having a structure represented by formula I or formula II, or an enantiomer, a raceme, or diastereomer thereof. The phosphine ligand can be prepared via a preparation scheme in which the cheap and easily available 6,6′-dihydroxyl-3,3,3′,3′-tetramethyl-1,1′-spirobiindane is used as a raw material and the compound represented by formula III serves as the key intermediate. The new phosphine ligand developed by the present application can be used in catalytic organic reaction, in particular as a chiral phosphine ligand that is widely used in many asymmetric catalytic reactions including asymmetric hydrogenation and asymmetric allyl alkylation, and thus it has economic practicability and industrial application prospect. ##STR00001##

Described herein are covalent organic frameworks. The covalent organic frameworks have unique structural and physical properties, which lends them to be versatile in a number of different applications and uses. In one aspect, the covalent organic frameworks are composed of a plurality of fused aromatic groups and electron-deficient chromophores. The covalent organic frameworks are useful as photocatalysts in a number of different applications.

Provided is a method for preparing an epoxy compound having an alkoxysilyl group effectively by using a mild catalyst as well as an aromatic alcohol ring-opening agent. The preparation method for an epoxy compound having an alkoxysilyl group includes: performing a ring opening step by reacting an epoxy compound having an epoxide group, which is a starting material, with an aromatic alcohol ring-opening agent in the presence of a phosphine-based catalyst and an optional solvent so as to obtain an intermediate having a partially ring-opened epoxide group; and performing an alkoxysilylation step by reacting the intermediate having a partially ring-opened epoxide with isocyanate alkoxysilane.

An object of the present invention is to provide a novel method for producing a fluorine-containing methylene compound. The above object can be achieved by a method for producing a compound represented by formula (1): ##STR00001##
wherein R.sup.1 represents an organic group, R.sup.A represents hydrogen or fluorine, R.sup.4a represents hydrogen or an organic group, R.sup.4b represents hydrogen or an organic group, R.sup.5a represents hydrogen or an organic group, R.sup.5b represents hydrogen or an organic group, and
R.sup.2 represents hydrogen or an organic group; R.sup.2 is optionally connected to R.sup.4a to form a ring; the method comprising step A of reacting a compound represented by formula (2): ##STR00002##
wherein X.sup.1 represents a leaving group, and other symbols are as defined above, with a compound represented by formula (3): ##STR00003##
wherein X.sup.2 represents a leaving group, and other symbols are as defined above, in the presence of a reducing agent as desired, under light irradiation.

The presently claimed invention relates to a process for the preparation of di-, tri-, or tetra fluoroarylamine by reacting polyfluorinated aryl chlorides with ammonia in the presence of a base, a metal catalyst and a ligand. Di-, tri-, tetrafluoroarylamines are valuable intermediates and find application in several areas, mainly in epoxy polymers, colorants, dyes, polyurethanes, agrochemicals and pharmaceutical active agents.

Methods, systems, and computer readable media may be operable to facilitate an anticipation of an execution of a process termination tool. An allocation stall counter may be queried at a certain frequency, and from the query of the allocation stall counter, a number of allocation stall counter increments occurring over a certain duration of time may be determined. If the number of allocation stall counter increments is greater than a threshold, a determination may be made that system memory is running low and that an execution of a process termination tool is imminent. In response to the determination that system memory is running low, a flag indicating that system memory is running low may be set, and one or more programs, in response to reading the flag, may free memory that is not necessary or required for execution.

An object of the present invention is to provide a novel method for producing a fluorine-containing methylene compound.

The above object can be achieved by a method for producing a compound represented by formula (1):

##STR00001## wherein R.sup.1 represents an organic group, R.sup.A represents hydrogen or fluorine, R.sup.4a represents hydrogen or an organic group, R.sup.4b represents hydrogen or an organic group, R.sup.5a represents hydrogen or an organic group, R.sup.5b represents hydrogen or an organic group, and R.sup.2 represents hydrogen or an organic group; R.sup.2 is optionally connected to R.sup.4a to form a ring; the method comprising step A of reacting a compound represented by formula (2):

##STR00002## wherein X.sup.1 represents a leaving group, and other symbols are as defined above, with a compound represented by formula (3):

##STR00003## wherein X.sup.2 represents a leaving group, and other symbols are as defined above, in the presence of a reducing agent as desired, under light irradiation.

The present invention relates to a process for preparing the Alectinib or a pharmaceutically acceptable salt thereof using lesser reaction steps and also eliminating expensive and time-consuming column chromatography. The invention also relates to novel polymorphic forms of Alectinib and Alectinib hydrochloride.

A method for dehydrocoupling silanes and amines. The method comprises contacting: (a) an aliphatic amine; (b) a silane; and (c) a catalyst which is ZnX.sub.2, wherein X is alkyl, chloride, bromide, iodide, trifluoromethanesulfonate, bis(trifluoromethane)sulfonamide, tosylate, methanesulfonate or O.sub.3S(CF.sub.2).sub.xCF.sub.3 wherein x is an integer from 1 to 10.