The invention relates to monocarbonyl complexes of ruthenium and osmium with bi- and tridentate nitrogen and phosphine ligands. The invention relates to methods for preparing these complexes and the use of these complexes, isolated or prepared in situ, as catalysts for reduction reactions of ketones and aldehydes both via transfer hydrogenation or hydrogenation with hydrogen.

The present invention relates to a preparation method for and an application of a chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand SpiroPNP and an iridium catalyst Ir-SpiroPNP thereof. The chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand is a compound represented by formula I, or a racemate or optical isomer thereof, or a catalytically acceptable salt thereof, and the main structural feature is a phosphine ligand having a chiral spiro indene skeleton and a large sterically hindered substituent. The chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand can be synthesized into a chiral starting material from a 7-diaryl/alkylphosphino-7′-amino-1,1′-spirodihydroindenyl compound having a spiro ring skeleton. The iridium catalyst of the chiral spirocyclic phosphino-7′-amino-1,1′-spirodihydroindenyl compound having a sprio ring skeleton. The iridium catalyst of the chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand is a compound represented by formula II, or a racemate or optical isomer thereof, or a catalytically acceptable salt thereof. The iridium catalyst can be used to catalyze the asymmetric catalytic hydrogenation of carbonyl compounds, and especially in the asymmetric catalytic hydrogenation of simple dialkyl ketones. Said catalyst exhibits high yield (>99%) and enantioselectivity (up to 99.8% ee), thus having practical value.

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The present invention relates to a preparation method for and an application of a chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand SpiroPNP and an iridium catalyst Ir-SpiroPNP thereof. The chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand is a compound represented by formula I, or a racemate or optical isomer thereof, or a catalytically acceptable salt thereof, and the main structural feature is a phosphine ligand having a chiral spiro indene skeleton and a large sterically hindered substituent. The chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand can be synthesized into a chiral starting material from a 7-diaryl/alkylphosphino-7′-amino-1,1′-spirodihydroindenyl compound having a spiro ring skeleton. The iridium catalyst of the chiral spirocyclic phosphino-7′-amino-1,1′-spirodihydroindenyl compound having a sprio ring skeleton. The iridium catalyst of the chiral spirocyclic phosphine-nitrogen-phosphine tridentate ligand is a compound represented by formula II, or a racemate or optical isomer thereof, or a catalytically acceptable salt thereof. The iridium catalyst can be used to catalyze the asymmetric catalytic hydrogenation of carbonyl compounds, and especially in the asymmetric catalytic hydrogenation of simple dialkyl ketones. Said catalyst exhibits high yield (>99%) and enantioselectivity (up to 99.8% ee), thus having practical value.

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The present application describes process for preparing an ortho-allylated hydroxy aryl compounds such as compounds of Formula (I) by reacting an allylic alcohol with a hydroxy aryl compound in the presence of aluminum compound selected from alumina and aluminum alkoxides and in a non-protic solvent wherein at least one carbon atom ortho to the hydroxy group in the hydroxy aryl compound is unsubstituted. The present application also includes compounds of Formula (I). ##STR00001##

The present application describes process for preparing an ortho-allylated hydroxy aryl compounds such as compounds of Formula (I) by reacting an allylic alcohol with a hydroxy aryl compound in the presence of aluminum compound selected from alumina and aluminum alkoxides and in a non-protic solvent wherein at least one carbon atom ortho to the hydroxy group in the hydroxy aryl compound is unsubstituted. The present application also includes compounds of Formula (I). ##STR00001##

Provided is a compound, a polymer, a composition, a composition for film formation, a pattern formation method, an insulating film formation method, and a method for producing a compound, by which a resist having excellent exposure sensitivity can be obtained.

A compound represented by the following formula (1):

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wherein R.sup.A is a hydrogen atom, a methyl group, or a trifluoromethyl group; R.sup.X is OR.sup.B or a hydrogen atom; R.sup.B is a substituted or unsubstituted alkyl group having 1 to 30 carbon atoms; and P is a hydroxy group, an alkoxy group, an ester group, an acetal group, a carboxyalkoxy group, a carbonate ester group, a nitro group, an amino group, a carboxyl group, a thiol group, an ether group, a thioether group, a phosphine group, a phosphone group, a urethane group, a urea group, an amide group, an imide group, or a phosphate group.

Provided is a compound, a polymer, a composition, a composition for film formation, a pattern formation method, an insulating film formation method, and a method for producing a compound, by which a resist having excellent exposure sensitivity can be obtained.

A compound represented by the following formula (1):

##STR00001##

wherein R.sup.A is a hydrogen atom, a methyl group, or a trifluoromethyl group; R.sup.X is OR.sup.B or a hydrogen atom; R.sup.B is a substituted or unsubstituted alkyl group having 1 to 30 carbon atoms; and P is a hydroxy group, an alkoxy group, an ester group, an acetal group, a carboxyalkoxy group, a carbonate ester group, a nitro group, an amino group, a carboxyl group, a thiol group, an ether group, a thioether group, a phosphine group, a phosphone group, a urethane group, a urea group, an amide group, an imide group, or a phosphate group.

The invention relates to monocarbonyl complexes of ruthenium and osmium with bi- and tridentate nitrogen and phosphine ligands. The invention relates to methods for preparing these complexes and the use of these complexes, isolated or prepared in situ, as catalysts for reduction reactions of ketones and aldehydes both via transfer hydrogenation or hydrogenation with hydrogen.

The invention relates to monocarbonyl complexes of ruthenium and osmium with bi- and tridentate nitrogen and phosphine ligands. The invention relates to methods for preparing these complexes and the use of these complexes, isolated or prepared in situ, as catalysts for reduction reactions of ketones and aldehydes both via transfer hydrogenation or hydrogenation with hydrogen.

The invention relates to monocarbonyl complexes of ruthenium and osmium with bi- and tridentate nitrogen and phosphine ligands. The invention relates to methods for preparing these complexes and the use of these complexes, isolated or prepared in situ, as catalysts for reduction reactions of ketones and aldehydes both via transfer hydrogenation or hydrogenation with hydrogen.