Process for producing 9,10-diphenylanthracene

Chemistry of hydrocarbon compounds – Aromatic compound synthesis – From nonhydrocarbon feed

Reexamination Certificate

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Reexamination Certificate

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06566572

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a process for producing 9,10-diphenylanthracene useful as a material for organic electroluminescence (EL) and a material for electrophotograph.
9,10-Diphenylanthracene has widely been known as a material for organic electroluminescence or a material for electrophotograph.
As a process for producing a 9,10-diphenylanthracene, there have been known {circle around (1)} a method comprising reacting benzophenone with calcium hydride to give the object compound (Ber. (1928) 61, 1675), {circle around (2)} a method comprising reacting 9,10-dichloroanthracene with maleic anhydride and then reacting the resultant with aluminum chloride to give the object compound (Ber. (1931) 64, 2194), {circle around (3)} a method comprising reacting benzoylhydrazide (C
6
H
5
CONHNH
2
) with benzoyl formic acid (C
6
H
5
COCOOH), condensing the resultant under dehydration by using dicyclohexyl carbodiimide (DCC), followed by conducting Diels-Alder reaction using benzyne to give the object compound (Synthesis (1977) 252), and {circle around (4)} a method comprising reacting o-chlorotriphenylmethane with copper cyanide to give a nitrilized product, then subjecting the resultant to Grignard reaction using phenyl magnesium halide and then reacting the product with hydrogen bromide and acetic acid to give the object compound (Am. Soc. (1943) 65, 451), etc. However, all of those methods have some problems that the reaction temperature is too high, the reaction has a lot of process steps, the reaction time is too long and waste substances (such as Ca(OH)
2
in {circle around (1)}, Al in {circle around (2)} and dicyclohexyl urea in {circle around (3)} are generated, and the object compounds obtained by those methods are low purity and those yield is also low such as 50% or less, and therefore any of those methods cannot be said as an industrially applicable method.
Under the circumstances, it has been desired at present to develop a simple and industrially applicable process for producing 9,10-diphenylanthracene.
SUMMARY OF THE INVENTION
The present invention has been accomplished under the circumstances as mentioned above and the object is to provide a process for producing 9,10-diphenylanthracene simply and applicably for industrial use.
The present invention relates to a process for producing 9,10-diphenylanthracene comprising subjecting 9,10-dihalogenoanthracene and a metal or half-metal phenyl compound to a cross-coupling reaction.
That is, the present inventors have earnestly investigated for the purpose of looking for a simple and industrially applicable process for producing 9,10-diphenylanthracene to reach finding that the above-mentioned problems with which known methods have so far been encountered can be solved and the object 9,10-diphenylanthracene can be produced applicably for industrial use in one or two process steps by subjecting a 9,10-dihalogenoanthracene and a metal or half-metal phenyl compound to a cross-coupling reaction, and the present invention has been accomplished on the basis of this finding.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
The 9,10-dihalogenoanthracene of the present invention includes 9,10-dichloroanthracene, 9,10-dibromoanthracene, 9,10-diiodoanthracene, 9-bromo-10-chloroanthracene, 9-bromo-10-iodoanthracene, 9-chloro-10-iodoanthracene, etc., among which 9,10-dichloroanthracene, 9,10-dibromoanthracene and 9,10-diiodoanthracene are preferable.
The metal or half-metal phenyl compound is one in which a phenyl group is directly bound to a metal or half-metal atom, and includes one shown by the general formula [1]
wherein M is a metal or half-metal atom, X is a halogen atom or a hydroxyl group, and n is an integer of 0 to 2.
In the general formula [1], the metal atom shown by M includes a lithium atom, a magnesium atom, an aluminum atom, a copper atom, a zinc atom, a tin atom, etc., among which a lithium atom, a magnesium atom and a zinc atom, particularly a magnesium atom, are preferable.
The half-metal atom shown by M includes one which is classified into non-metallic but shows metallic properties, which is exemplified by a boron atom, a silicon atom, etc., among which a boron atom is preferable.
The halogen atom shown by X includes a fluorine atom, a chlorine atom, a bromine atom, an iodine atom, etc.
Specific examples of the metal or half-metal phenyl compounds are phenyl compounds having a magnesium-carbon bond (Grignard reagent) such as phenylmagnesium bromide, phenylmagnesium chloride and phenylmagnesium iodide, phenyl compounds having a zinc-carbon bond such as phenylzinc bromide and phenylzinc chloride, phenyl compounds having a lithium-carbon bond such as phenyl lithium, phenyl compounds having a boron-carbon bond such as phenylboric acid, etc., among which phenylmagnesium bromide, phenylmagnesium chloride, phenylmagnesium iodide and phenylboric acid are preferable.
The process for producing 9,10-diphenylanthracene of the present invention is specifically conducted as follows.
The 9,10-dihalogcnoanthracene is allowed to react with the metal or half-metal phenyl compound in a suitable solvent, in the presence of, if necessary, a metallic catalyst for a cross-coupling reaction.
In subjecting the 9,10-dihalogenoanthracene and a metal phenyl compound to a cross-coupling reaction, the metal phenyl compound which is previously prepared may be subjected to the reaction, or a metal and a phenyl halide, which are starting materials for the metal phenyl compound, may be reacted at the same time with the 9,10-dihalogenoanthracene. In the latter case, the metal phenyl compound in the present invention is once produced in a reaction system and then this reaction product is subjected to the cross-coupling reaction to give the object compound. The reaction formulas are shown below.
The process for producing objective 9,10-diphenylanthracene by reacting the metal phenyl compound prepared preciously with the 9,10-dihalogenoanthracene is shown in the following formula [2].
wherein M′ is a metal atom, and X and n have the same meaning as above.
The process for producing the object compound by reacting a metal and phenyl halide at the same time with the 9,10-dihalogenoanthracene is shown in the following formula [3].
wherein M′, X and n are as defined above.
An amount of the metal or half-metal phenyl compound to be used depends on the kind of the 9,10-dihalogenoanthracene to be used and the amount is generally 1 to 4 equivalent, preferably 1 to 2 equivalent, relative to the 9,10-dihalogenoanthracene.
The reaction solvent includes an aromatic hydrocarbon such as toluene, xylene and benzene, an ester such as methyl acetate, ethyl acetate and butyl acetate, an ether such as diethyl ether, tetrahydrofuran, dioxane, dimethoxy ethane and diisopropyl ether, a hydrocarbon halide such as methyl chloride, chloroform, dichloromethane, dichloroethane and dibromoethane, a ketone such as acetone and methylethyl ketone, an amide such as dimethylformamide, a nitrile such as acetonitrile, dimethylsulfoxide, etc. The solvent may be used alone or in a combination of two or more thereof.
The metallic catalyst for the cross-coupling reaction is not specifically limited so far as it shows this effect, and includes a palladium type catalyst, a nickel type catalyst, an iron type catalyst, a cobalt type catalyst, a ruthenium type catalyst, a rhodium type catalyst, etc., among which a 0- or 2-valent palladium type catalyst such as palladium bromide, palladium chloride, palladium iodide, palladium cyanide, palladium acetate, palladium trifluoroacetate, palladium acetyl acetonato [Pd(acac)
2
], diacetate bis (triphenylphosphine) palladium [Pd(OAc)
2
(PPh
3
)
2
], tetrakis (triphenylphosphine) palladium [Pd(PPh
3
)
4
], tris (dibenzylideneacetone) dipalladium [Pd
2
(C
6
H
5
CH═CHCOCH═CHC
6
H
5
)
3
], dichlorodiamine palladium [Pd(NH
3
)
2
Cl
2
], dichloro bis (acetonitrile) palladium [Pd(CH
3
CN)
2
Cl
2
], dichloro bis (

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