DE1569672A1 - New dyes from the quinophthalone range - Google Patents

Description

New dyes from the quinophthalone range It is known that by condensation of phthalic acid with. 2-methylehinolines yellow: dyes called quinophthalones received .: These quinophthalones were initially found in the form of their Sul = .fing products Entry into the: Technique for coloring animal Fibers .-- More recently, quinophthalones have also been suggested for dyeing synthetic fibers made of polyesters or poly to use amides; however, the then well-known due to - the high real- not very suitable. The basic body, the unsub- substituted quinophthalone, comes because of the low thermal Persistence of its colorations as a dye for practical use out of consideration. Condensation products from chlorinated or nitrated phthalic acids with 2-methylehinolines have a improved "thermal resistance, but the affinity is too." Synthetic fibers- $ a far reduced that even these dyes no practical use. have found. Cheaper own. have quinophthalone derivatives in the 3 ° position Hydroxylgruppe @ tind ewtl. carry a carboxyl group or a derivative of a carboxyl group in the 5 (6) position. Corresponding dyes are known, for example, from the following patents: DAS 1 168 862, USP 3 036 876, USP 2 818 410, USP 3 023 213 and USP 3 023 214.

It has now been found that disperse dyes with even better properties of the general formula I. correspond, in which Ar is an optionally substituted phenyl or naphthyl radical and in which the rings A and B are still further can be substituted. As substituents for the ring A, for example, alkyl, alk- oXy, aryl, acylamino or hydroxyl groups or halogen atoms and specifically methyl, ethyl, isopropyl, methoxy, ethoxy, 3 phenyl, Called tolyl, acetylamino, chlorine or bromine. A to the Rng A anel- lated ring is also possible. The ring B can, for. B. by hydroxyl groups and / or halogen atoms such as chlorine or bromine substituted. . The radical Ar is an optionally substituted naphthalene radical or preferably a phenyl radical optionally substituted by one or more AZkyl, aryl, hydroxy-alkoxy, aroxy, or acylamino groups or halogen atoms, where 'in detail e.g. B. methyl, ethyl :, butyl, .- methoxy, ethoxy, phenoxy, acetylamino, chlorine or bromine may be mentioned.

Several ways open up for the production of the new dyes. For example, quinaldines of the formula I1 with phthalic acid derivatives of the formula III condense to give compounds of formula I. Compounds corresponding to formula II are, for example: Quinaldine, 6-methylquinaldine, .8-chlorchinaldine, 6,7-benzchinaldir or 3-hydroxyquinaldine-4-carboxylic acid. (From the latter Compound, the C4rboxylgruppe is removed during the reaction. columns. ) -6-methylbhinaltline and 3-hydroxyquinaldine-4-earbönsä; ure are preferred. - Compounds of the formula III are, for. B. 4-Benzoylphthalic acid or anhydride or 4-p-Chbrbenzoylphthalic acid or = anhydride.

The implementation takes place in a manner known per se by melting together the components or by heating the components in an inert solvent to 180 to 250 ° C with elimination of water.

Another possibility to prepare dyes of the formula I is to use compounds of the formula IV in which X is a bromine atom or preferably a chlorine atom, to be reacted with compounds of the formula VH - Ar V under the conditions for Friedel-Crafts reactions. Compounds corresponding to formula IV are, for example, quinophthalone75 (6) -carboxylic acid chloride or bromide, 6'-chloro- or 6'-methyl-eninophthalone-5 (6) -aarboxylic acid chloride, 3'-hydroxyquinophthalone-5 (6) -carboxylic acid chloride, 8'-chloro- or W-acetylaminoquinophthalone-5 (6) -cgboxylic acid chloride, 6'-hydroxy- or 6'-ethoxyquinophthalone-5 (6) -carboxylic acid chloride, 5 ', 6 "-Benz- quinophthalone-5: (6) -earboxylic acid chloride or 7 ', 8'-benzehino- phthalone-5 (6) = carboxylic acid chloride .. Of these compounds are the first four are preferred. These carboxylic acid halides are produced by known methods her how she, z. B; by Il..Rosenthal (PhD thesis No. 3685, ETH Zurich, 1965). For quinophthalone-5 (6:) -carboxylic acid chloride or by JW Richter in U.S. Patent 3,023,214 for the Hydroxy compound are indicated. - Compounds of the formula V are, for example, benzal, foluene, o-, m-, p-xylene, pseudocumene, tert-butylbenzene, 1,4-bis-isopropyl- benzene, anisole, hydroehinone monomethyl ether; Resorcinol dimethyl ether, Diphenyl oxide: chlorobenzene; o-, m-, p-dichlorobenzene, .o-; m -, _ p-chloro-toluene, p-chloroanisole, 1-methyi @ 3-methoxybenzene, acetanilide, Aaetessiganilid, naphthalene, 1- or 2-methylnaphthalene, 1- or 2-naphthyl methyl ether, chloronaphthalene, 1-acetylaminonaphthalene, 2..propionylaminonaphthalene, 1-aeetoaoetylaminonaphthalene or 4-acetylaminodiphenyl, _ .-- As Friedel-Crafts catalysts, the aluminum halides, such as aluminum trihloride and aluminum tribromide, in iietr4eht ddeh, other compounds such as Zinntetra- ohlorid, can be used: The reaction is expediently carried out so that the Quinophthalone-5 (6) -carboxylic acid halide of the formula IV with a Excess of the compound ArH in the presence of 1 mole or more Aluminum halide converts. When implementing liquid ArH bonds, these can also serve as solvents, i. otherwise an inert solvent such as tetrachloroethane is used, Nitrobenzene, or e.g. B. a low melting aluminum chloride Melt, as known from German patent specification 878 647 is. The reaction temperature depends on the reactivity of the compound ArH selected between room temperature and approx. 150 ° C: To open working of the reaction mixture is expediently the aluminum halide complex with mineral acid decomposed, the excess bond ArH or the solvent is removed with steam distilled and the dye is, e.g. B. by suction, isolated. The new dyes are used as disperse dyes for dyeing of textile structures made of synthetic material, in particular of linear polyesters, such as polyethylene terephthalate, preferably after the HT process. Yellow coloring of very is obtained good fastness to light and heat-setting. Details of parts in the following examples relate to ' the weight. Example 1: 300 parts of anhydrous benzene, 30 parts of aluminum trichlord and 33.6 parts of quinophthalone-5 '(6) -carboxylic acid chloride are a Heated to boiling with reflux cooling for an hour. After he- cold, one adds a little bit of hydrochloric acid and distills the Remove excess benzene with steam. The failed dye is filtered off with suction, washed neutral with hot water and dried. 36.6 parts of 5 (6) -benzoylchnophthalone with a melting point are obtained 254 to 255 ° C (from chlorobenzene). The dye dyes Polyä: thyylen- terephthalate from aqueous bath 3n brilliant greenish yellow Tones of good light = and fastness to heat setting. Analogous to the procedure given in Example 1, omit Quinophthalone-5 (6) carboxylic acid chloride and those in the following Table given compounds. ArH 5 (6) -Aroylehnophthaione mit similar Kolalstian properties. Example compound _ Reakt :: ReaktT Melting point coloring 'on No. ArH temp. Time. d.Polyester dye 2 zoluene - 25 ° C 16 hours 258 --259 ° C yellow 3 o-xylene 40 ° C $ hrs. 229 - 230 ° C yellow 4 @ m-xylene 30 ° C 16 hours 209-210 ° C yellow 5 p-XyloT 300C _16 hours 237 - 238 ° C yellow Anisole 25 ° C 6 hours 259 - 2600C reddish. yellow 7 3-methoxy- 25 ° C 16 hours d. 308 - 310 ° C - yellow tolüol 8 pseudocumene 250C 16 hours 250 - 251 ° C yellow Example compound React. React. Melting point No. ArH temp. time of the dye polyester 9 'chlorobenzene 500C 4 hours 257 - 259 ° C greenish yellow 10 mzChlor- 500C 4 hours 224 - 225 ° C yellow toluene Example 11 A mixture of 200 parts of tetrachloroethane, 50 parts of diphenyl oxide, 40 parts of aluminum trichloride and 33.6 parts of quinophthalone-5 (6) -carboxylic acid chloride is stirred for 4 hours at room temperature Components distilled off with steam. The I # dye is suctioned off and washed with hot water. After drying, 44.9 parts of 5 (6) -p-phenoxybenzoyl-quinophthalone with a melting point of 240 to 2420 ° C. (from chlorobenzene) are obtained. The dye gives a yellow dye on polyethylene terephthalate, which shows good fastness to light and heat.

Example 12 The diphenyl oxide in Example 11 is replaced by 30 parts 1-methylnaphthalime; 43.8 parts of 5 (6) -methylnaphthaoylquinophthalone are obtained in this way from melting point 190 to 1930C (from amyl alcohol). Example 13 Off 300 parts of aluminum chloride and 45 parts of acetanilide become a melt at 1200C prepared, in which one enters 33.6 parts of quino-phthalone-5 (6) -carboxylic acid chloride. The mixture is stirred for 2 hours at 120 ° C. and the reaction mixture is then poured onto ice and hydrochloric acid. The deposited dye is filtered off with suction and boiled several times with water. Man obtained after drying 42; 7 parts of 5 (6) -p-acetylaminobenzoyl-quinophthalone from Melting point 257 to 2600C (from dichlorobenzene). On polyethylene terephthalate there the dye has strong yellow colorations with good lightfastness and heat-setting fastness.

EXAMPLE 14 First 33.6 parts of quinophthalone-5 (6) carboxylic acid chloride and then 20 parts of phenol are introduced into a melt prepared from 400 parts of aluminum trichloride and 60 parts of urea by the process described in German patent specification 878 647. After stirring for 2 hours at 50 ° C. and 2 hours at 750 ° C., the reaction mixture is worked up as described in Example 13 . 36.1 parts of 5 (6) -p-oxybenzoylehinaphthalone with a melting point of 296 to 2970C (from diochlorobenzene) are obtained: Example 15 If the phenol in Example 14 is replaced by 24 parts of 4-acetylaminodiphenyl and stirred for 2 hours at 100 to 1100C, so after work-up, 48 parts of a yellow dye with a melting point of 321 to 3230 ° C. (from nitrobenzene) are obtained.

Example 16 Using 25 parts of 1-acetoacetylaminonaphthalene instead des 4-Acetylaminodiphenyls.in Example 15 and otherwise works analogously, one obtains 49.2 parts of a yellow dye with a melting point of 326 to 3300 ° C. (from nitrobenzene).

Example 17 300 parts of anhydrous benzene, 40 parts of aluminum trichloride and 35 parts of 6'-methylquinophthaion-5 (6) -carboxylic acid chloride are refluxed for 4 hours. The reaction mixture is then poured into a distillation vessel containing ice and hydrochloric acid, and the excess benzene is distilled off with steam. The dye suspension is then filtered off with suction, the dye is washed with water and dried. 38.7 parts of 5 (6) -benzoyl-6'-methylquinophthalone with a melting point of 244 to 2450C (from chlorobenzene) are obtained Dye. Using the compounds ArH given in the table, the following, coloristically similar 5 (6) -Aroyl-6'-methylquinophthalones were prepared in the same way: Example, _ compound teak - react, melting point color on- No. ArH temp. time of the dye polyester 1: 8 toluene 100 ° C 1 hour 252 - 253'C greenish yellow 19 p-Xylo1 100 ° C 1 hour: 230 - 232 ° C yellow 20 m-chlorine- 125'C 1 hour. 235 -? 36'C. yellow toluo. Example 21 400 parts: toluene, 60 parts of aluminum trichloride and 37 parts of 8'-chloroquinophthalone-5 - (: 6) -carbyl chloride are stirred at 105 ° C. for 2 hours. After adding hydrochloric acid, the excess toluene is distilled off with steam. The dye suspension is filtered off with suction and washed with water. After drying, 41.8 parts of 5 (6) -p-toluyl-8'-chlorochnophthalone with a melting point of 266 to -268 ° C. (from trilobenzene) are obtained. .The. Dye-dyes polyester in good light- and heat-setting, greenish yellow tones. Example 22 500 parts of anhydrous benzene, 50 parts of aluminum trichloride and 38.6 parts of 5 ', 6'-benzquinophthalone-5 (6) -carboxylic acid chloride are refluxed for 4 hours. After working up as in Example 1, 40.3 parts of 5 (6) -benzoyl-5 ', 6'-benzehinophthalone with a melting point of 297 to 298 ° C. (from nitrobenzene) are obtained. With the dye, reddish-tinged yellow dyeings with good light and heat-setting fastness are obtained on polyester. -y By reacting 5 ', 6'-Benzehinophthalone-5 (6) -carboxylic acid chloride with other compounds ArH, the following 5 (6) -Aroyl-5``, 6'-benzethnophthalones were obtained Example compound React.- React.- Melting point No. ArH temp. time of the dye polyester 23 toluene 25 ° C 48 hours 327 -. 328 ° C yellow 24 anisole 250C 48 hours 294 - 2980C yellow 25 diphenyl oxide 45 ° C +) 2 hours 318 - 3190C yellow 26 m-chlorine- 70 ° C 2 hours 308 - 3090C reddish toluene yellow ) in carbon disulfide as a solvent Example 27 400 parts of anhydrous benzene, 60 parts of aluminum trihydrate and 35.2 parts. 3'-Hydroxyohinophthalone-5 (6) -earboxylic acid chloride are heated to boiling for 2 hours with reflux cooling and then worked up as described in Example 1 @. 37.5 parts of 5 (6) -benzoyl-3'-hydroxyquinophthalone with a melting point of 234 ° to 235 ° C. are obtained (from nitrobenzene). The dye -dyes polyester in reddish tones: yellow tones ron-: good lightfastness and heat-setting fastness.

The following 5 (5) -Aroyl-3'-hydroxyquinophthalones were prepared analogously by reacting 3'-Hydroxyehnophthalone-5 (6) -carboxylic acid chloride with the compounds ArH listed in the table:. Example compound React, Reakt, Melting point coloring on No. ArH temp. time of the dye polyester 28 toluene 500C 2 hrs. 224 - 225 ° C 'red-tinged yellow 29 m_Xylene 50 ° C 2 hrs. 218 - 219 ° C. Red-sticky yellow 30 P.seudocumoi 400C 4 hours 207 - 20800 red sticky yellow 31 Anisole 250C 24 hours: 212 - 2130C red sticky - yellow 32 diphenyl- 750C 6 hours 207 - 2100C red sticky- oXyd yellow 33 m-chlorine'- 600C 4 hours :. 173 - 1750C red-embroidered toluene 3: + 2,6-Diehlor- 70.0C 4 hours 266 - 2670C rotated r toluoi yellow Example @ 5 @ 27 ", 0 part. 4'-benzoylphthalic acid and 0 part 041naldine are-4 Hours. heated to ;, 30'C, whereby one ', ciao water of reaction from-'. deetilliere @ lets. During the cooling down, the reaction liquid, mixed with 150 parts of ethanol. After cooling, the dye is filtered off with suction, washed with ethanol and dried. 32.3 parts of 5 (6) -benzoylquinophthalone with a melting point of 2540C (from chlorobenzene) are obtained. The dye dyes polyethylene terephthalate from an aqueous bath in greenish yellow shades of good fastness to light and heat.

Example 36 30.5 parts of 4-p-chlorobenzoylphthalic acid, 16 parts of quinaldine and 50 parts of diphenyl oxide are kept boiling gently for 4 hours. While to cool, 100 parts of benzene are added and the mixture is briefly boiled. After vacuuming, Washing with benzene and drying gives 35.2 parts of 5 (6) -p-chlorobenzoylquinophthalene from melting point 256 to 259 ° C (from dichlorobenzene).

Example 37 25.2 parts of 4-benzoylphthalic anhydride, 18.0 parts of 6-methylquinaldine and 50 parts of trichlorobenzene are heated for 4 hours at 215 to 225 ° C. and the water of reaction is allowed to distill off with a little tri-chlorobenzene. The reaction mixture is poured out and, after cooling, is triturated with: methanol. After filtering off with suction, washing with methanol® and drying, 36 parts of 5 (6) -benzoyl-61-methylquinophthalone with a melting point of 244 to 25 ° C. (from chlorobenzene) are obtained. Example 38 25.2 parts of 4-benzoylphthalic anhydride, 18.0 parts of 8-chloroquinaldine and 100 parts of naphthalene are refluxed for 8 hours, the water of reaction being collected with a strip of filter paper inserted in the condenser. While cooling, it is diluted with 100 parts of benzene and left to stand over Naelt: The dye is then filtered off with suction and washed with benzene. After drying, 38 parts of 5 (6) -benzoyl-8 '= chloroquinophthalone with a melting point of 274 to 276 ° C. (from nitrobenzene) are obtained, Example 39 25.2 parts of 4-benzoylphthalic anhydride, 20.0 parts of 5.6- Benzchinaldin ( "ß-Naphthöchinaldin") and 100 parts of nitrobenzene are 4 hours is heated to boiling while allowing distill off the water of reaction with some nitrobenzene. after cooling, stirred with 100 parts of ethanol, filtered off and washed with ethanol. is obtained according to Drying 38.7 parts of 5 (6 -) - Benz6yl-5 '; 6 = benzquinophthalone with a melting point of 296 to 2980 ° C. (from trichlorobenzene).

EXAMPLE 40 25.2 parts of 4-8enzoylphthalic anhydride and 100 parts of diphenyl oxide are stirred at 210.degree. To 220.degree. In the course of 30 minutes, 20.3 parts of 3-hydroxyquinaldine-4-carboxylic acid are added in portions and the mixture is then heated to 2500 ° C. for a further hour. The diphenyl oxide is distilled off with steam and the dye is isolated from the remaining suspension by suction. After drying, 34 parts of 5 (6) -benzoyl-3'-hydroxyehinophthalone with a melting point of 234 to 2350 ° C. (from nitrobenzene) are obtained.

Claims (2)

Claims 1. Dyes of the general formula in which Ar denotes an optionally substituted phenyl or naphthyl radical and in which the rings A and B can be further substituted. 2. A process for preparing dyes of the general--.meinen formula according to claim 1, characterized in that the DAB compounds of the general formula with phthalic acid derivatives of the general formula .condensed. 3Bin a process for the preparation of dyes in general Formally, the claim 1 is identified by the fact that one bondOn of the general formula ::. - - - in which X denotes a chlorine or bromine atom and reacts with compounds t of the general formula Ar-H. Use of compounds of the general formula according to Claim 1 for dyeing textile material made from synthetic fibers, in particular polyester fibers.