Login| Sign Up| Help| Contact|

Patent Searching and Data


Title:
DISAZO DYES CONTAINING A FLUOROSULPHONYL GROUP AND USE THEREOF
Document Type and Number:
WIPO Patent Application WO/1995/022649
Kind Code:
A1
Abstract:
A process for colouring a synthetic textile material or fibre blend thereof which comprises applying to the synthetic textile material a compound of formula (1): A-N=N-D-N=N-E wherein A, D and E each independently is an optionally substituted heterocyclic or carbocyclic group and at least one of A, D or E carries directly at least one -SO2F group or carries a substituent to which at least one -SO2F group is attached. A process for the mass coloration of plastics which comprises incorporating into a plastics material a compound or mixture thereof, which is free from water solubilising groups, of formula (1).

Inventors:
JAMES MARK ROBERT (GB)
HALL NIGEL (GB)
Application Number:
PCT/GB1995/000127
Publication Date:
August 24, 1995
Filing Date:
January 24, 1995
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
ZENECA LTD (GB)
JAMES MARK ROBERT (GB)
HALL NIGEL (GB)
International Classes:
C09B31/043; C08K5/00; C08K5/29; C08L101/00; C09B31/02; C09B31/062; C09B62/83; D06P1/02; D06P3/26; D06P3/82; D06P5/00; (IPC1-7): D06P3/26; C08K5/00; C09B31/02; C09B62/83; D06P3/54; D06P3/72; D06P3/79; D06P3/82
Foreign References:
US2427995A1947-09-23
US2576037A1951-11-20
US3131021A1964-04-28
FR1307200A1962-10-19
Other References:
DATABASE WPI Section Ch Week 2279, Derwent World Patents Index; Class A60, AN 79-41604B
Download PDF:
Claims:
CLAIMS
1. A process for colouring a synthetic textile material or fibre blend thereof which comprises applying to the synthetic textile material a compound of Formula (1) : AN=NDN=NE Formula (1) wherein: A, D and E each independently is an optionally substituted heterocyclic or carbocyclic group and at least one of A, D or E carries directly at least one S02F group or carries a substituent to which at least one S02F group is attached.
2. A process according to Claim 1 in which the compound of Formula (1) is of Formula (2) : Formula [2 ) in which: R1 and R2 each independently is H, or C.galkyl substituted by OH, CN, F, Cl, Br, SOl7, phenyl, phenylS02F, OCOCigcilkyl, COOC1.galk<3xyC1galkoxy, COOCLgalkoxyCig alkoxy, C*.galkoxy, Cj..galkoxyCi6alkoxy, OCC_salkyl, 0CC1.galkα yC1_5alkoxy, OCO(3fluorosulphonylphenyl) , 0C0(4fluorosulphonylphenyl) , OCOphenyl or OCOC._4 alkenyl; R3 is H, SOzF, Cigilkyl or Cigalkoxy; R4 is H, SQF, Cigcilkyl, RB, Rs, R7, R8, R9 and R10 each ind<apendently is H, C.6alkyl, C.6alkoxy or S02F; and Ru, Ru , R13, R14 and R15 each independently is H, CN, NO,, SCkF, Cigalkyl, Cigalkαxy, CC>C1_( alkyl, COOCigcilkyl, F, d, Br, CF3, N ^2, COfl^R2, S02NR1R2 in which R1 and R2 are as hereinbefore defined.
3. A process according to Claim 1 in which the compound of Formula (1) is of Formula (3) : J_ F o r m u l a [ 3 ) in wr .ch: R1 and R2 each independently is H, C.salkyl or Cj.6alkyl substituted by OH, CN, F, Cl, Br, SO F, phenyl, phenylSOjF, OCOC..* alkyl, σDCC1.εalkα cyC.salkcxy, C00C1salkoxyC1.s 15 alkoxy, Cisalkαxy, Cisalkoxy igalkox , OCC.6alkyl, OCCigalkσxyCigalkoxy, OCO (3 fluorosulphonylphenyl) , 0C0(4fluorosulphonylphenyl) , OCCphenyl or OCO ,^ alkenyl ; R3 is H, SC^F, Ci.galkyl or Ci.galkαxy; 20 ? is H, S02F, C..βalkyl, CLgalkoxy or NHCOC.6alkyl ; Rs and Re each independently is H, C.6alkyl, Cj.6alkoxy or SC^F; R11, R12, R13 , R" and R13 each independently is H, CN, N02, S0L.F, CLsalkyl, C.6calkoxy, COCigalkyl, COOC*._β alkyl, F, Cl, Br, CF3, in which R1 and R2 are as 25 hereinbefore defined; R" is H, CN, SO.F, COOC^salkyl, COC1.6alkyl or CCΣOT^R2 in which R1 cand R2 care as hereinbefore defined; cand R17 is H, CN, SC^F or C^allcyl. 30 4. A process according to Claim 1 in which the compound of Formula (1) is of Formula (4) : *& 40.
4. Formula (4) in which: R1 and R2 each independently is H, Cigalkyl or Cjgalkyl substituted by OH, CN, F, Cl, Br, S02F, phenyl, phenylS02F, OCOCigalkyl, COOCi6alkoxyC..galkoxy, COOCi.galkαxyCig alkαxy, Cjgalkoxy, CtgalkoxyCi.galkoxy, OCC.5alkyl, OCCigalkαxyCigalkoxy, OCO(3fluorosulphonylphenyl) , 0C0(4fluorosulphonylphenyl) , OCCphenyl or 0CC*< ._4 alkenyl; R3 is H, SCF, Cigalkyl or Cigalkoxy; R4 is H, SC^F, Cigca kyl, Cigalkoxy or NHCOCi.galkyl; Rs, R6, R7, R8, R9 and Rxo each independently is H, C.6alkoxy or SOzF; and R11, Ru , Ru, R14 and R15 each independently is H, CN, N02, SOjF, Cigeilkyl, C.6calkoxy, COCi.galkyl, COOCigalkyl, F, Cl, Br, CF3, in which R1 and R2 are as hereinbefore defined.
5. A compound of Formula (1) : AN=NDN=NE Formula (1) in which A, D and E each independently is can optionally substituted heterocyclic or carbocyclic group and at least one of A, D or E carries directly at least one SO^F group or carries a substituent to which at least one SOjF group is attached except for 1(4hydrαxyphenylazo) 2methoxy4 (4fluorosulphonylphenylazo)benzene; 1(2chloro4nitrophenylazo) 5methyl2fluorosulphoπyl4 (2hydrαxy3 (carbcnyl (Nphenyl)aami o)naphth1ylazo)benzene; 1 (2methyl5fluorosulphonylphenylazo) 3ethoxy4 (2hydroxy3 (carbonyl (Nphenyl)amLno)naphthlylazo)benzene; 1(3fluorosulphonylphenylazo) 2,5dimethoxy4 (2hydroxy3 (carbonyl (N naph1hlyl)amino)naphth1ylazo)benzene; and 1(2methyl5fluorosulphonylphenylazo) 4 (2hydroxy3 (carbonyl (N phenyl)amino)naphth1ylazo)naphthalene.
6. A process for the mass coloration of plastics which comprises incorporating into a plastics material a compound or mixture thereof which is free from water solubilising groups, of Formula (1) : AN=NDN=NE Formula(1) in which A, D and E each independently is an optionally substituted heterocyclic or carbocyclic group cand at least one of A, D or E carries directly at least one S02F group or carries a substituent to which at least one S02F group is attached.
Description:
Dlsazo dyes containing a fluorosulphr -1 group and use thereof

The present invention relates to a process for colouring synthetic textile materials, to synthetic textile materials when coloured, to a process for the mass coloration of plastics, to plastics when coloured, to certain novel azo dyes and to compositions containing azo dyes.

According to the present invention there is provided a process for colouring a synthetic textile material or f bre blend thereof which comprises applying to the synthetic textile material a compound of Formula (1) : A-N=N-D-N=N-E

Formula (1) wherein:

A, D and E each independently is an optionally substituted heterocyclic or carbocyclic group and at least one of A, D or E carries directly at least one -SO-F group or carries a substituent to which at least one -SO.F group is attached. The presence of one or more -S0 2 F groups in a dye molecule generally improves the properties of that dye and confers surprisingly good wet-fastness and light-fastness properties. Different compounds of Formula (1) may be mixed or the compounds of Formula (1) may be mixed with dyes which do not contain an -SO.F group, such mixtures are a feature of the present invention. The mixtures may be simple physical mixtures or may be mixed crystals formed for example by co-crystallisation. Such mixtures generally show iπprσvement in dyeing properties. Crystalline modifications of compounds of Formula (1) exist and it is intended that the present definition includes such crystalline modifications which may be formed by heat treatment.

The synthetic textile material may be selected from secondary cellulose acetate, cellulose triacetate, polyamide, polyacrylonitrile and aromatic polyester. The syn-.netic textile material is preferably polyamide or aromatic polyester, such as polyhexamethylene adipamide or polyethylene terephthalate more preferably aromatic polyester -and especially polyethlene terephthalate. Fibre blends may comprise mixtures of different synthetic textile materials or mixtures of synthetic and natural textile materials. Preferred fibre blends are those of polyester cellulose such as polyester-cotton. The textile materials or blends thereof may be in the form of filaments, loose fibres, yarn, woven or knitted fibres. The dyes of Formula (1) preferably have low solubility in water, typically less than 1% preferably less than 0.5% and especially less than 0.2% solubility in water. The dyes of Formula (1) are thus

free from water solubilising groups such as -SQ-.H, -CO-.H, -PO 3 H and quaternary amino.

The dyes of Formula (1) , optionally in conjunction with other disperse dyes may be applied to the synthetic textile materials or fibre blends thereof by methods which are conventionally employed in dyeing disperse dyes to such materials and fibre blends. For example, the dyes of Formula (1) in the form of an aqueous dispersion may be applied by dyeing, padding or printing processes using the conditions and additives conventionally used in carrying out such processes. The process conditions may be selected from the following: i) exhaust dyeing at a pH of from 4 to 6.5, at a temperature of from 125°C to 140°C for from 10 to 120 minutes and under a pressure of from 1 to 2 bar, a sequestrant may be optionally be added; ii) continuous dyeing at a pH of from 4 to 6.5, at a temperature of from 190°C to 225°C for from 15 seconds to 5 minutes, a migration inhibitor may optionally be added; iii) printing direct at a pH of from 4 to 6.5, at a temperature of from 160°C to 185°C for 4 to 15 minutes for high temperature steaming, or at a temperature of from 190°C to 225°C for 15 seconds to 5 minutes for bake fixation with dry heat or at a temperature of from

120°C to 140°C and 1 to 2 bar for 10 to 45 minutes for pressure steaming, wetting agents and thickeners (such as alginates) of from 5 to 100% by weight of the dye may be optionally be added; iv) discharge printing (by paddi g the dye onto the textile material, drying and overprinting) at a pH of from 4 to 6.5, migration inhibitors -and thickeners may optionally be added; v) carrier dyeing at a pH of from 4 to 6.5, at a temperature of from 95°C to 100°C using a carrier such as methylnaphthalene, diphenylamine or 2-phenylphenol, sequesterants may optionally be added; and vi) atmospheric dyeing of acetate, triacetate and nylon at a pH of from 4 to 6.5, at a temperature of 85°C for acetate or at a temperature of 90°C for triacetate and nylon for from 15 to 90 minutes, sequesterants may optionally be added. In all the above processes the compound of Formula (1) is applied as a dispersion comprising from 0.001% to 4% of the compound in aqueous medium.

The present compounds generally provide coloured textile material which shows good fastness to washing, light and heat. The heterocyclic group represented by A, D or E may be selected from thienyl, thiazolyl, isothiazolyl, pyrazolyl, imidazolyl, pyridyl, pyridonyl, 1,2,4- and 1,3,4-thiadiazolyl, furanyl, pyrrolyl, pyridazyl, pyrimidyl, pyrazinyl, benzothiazolyl, benzoisothiazolyl, quinolinyl, iscxquinolinyl, indolyl, pyridothiazolyl, pyridoisothiazolyl,

1,2,3- and 1,2,4-triazolyl. The carbocyclic group represented by A, D or E may be phenyl or naphthyl.

A and E each independently is preferably thienyl, phenyl, naphthyl, thiazolyl, isothiazolyl, pyridonyl, more preferably thien-2- yl, phenyl, naphthyl, thiazol-2-yl, isothiazol-5-yl or pyrid-4-one-5-yl and especially phenyl or naphthyl.

D is preferably phenyl, naphthyl, biphenyl, thienyl or thiazolyl, more preferably phen-1,4-ylene, naphth-1,4-ylene, 4,4'- biphenylene, 3,3'-dichlθ2ro-4,4'-biphenylene, thien-2,5-ylene or thiazol- 2,5-ylene and especially phen-1,4-ylene, naphth-1,4-ylene or thien-2,5- ylene.

Examples of suitable substituents for A, D and E are cyano, hydroxy, nitro, halo such as fluoro, chloro and bromo, fluorosulphonyl, trifluoromethyl, alkyl, alkoxy, aryloxy, -COalkyl, -NHCOalkyl, -NHS0 2 alkyl, -OCOalkyl, -COOalkyl, -Salkyl, -Saryl, -S0_alkyl, -SC-.aryl, l ~ R λ R- ~ , -CONR 2 , SO-JNR^ 2 in which R 1 and R 2 each independently is -H or cycloalkyl, alkyl, alkyl or alkoxy substituted by -OH, -CN, halo such as -F, -Cl and -Br, phenyl, -S0 2 F, -OCO-alkyl, -COOalkyl,

■< ~o -cαoa11ri-

-OCCphenyl, -COOphenyl, -<OCO(fluorosulphonylphenyl) , alkyl(fluorosulphonylphenyl) , -OCO(fluorosulphonylphenyl) , -COOalkcrxyalkoxy, alkoxyalkoxy, -OCalkyl, -OCalkαxyalkoxy, alkenyl, - OCOalkenyl, -COOalkylOalkyl, -OalkylCN, alkoxy, aryloxy, -OcalkylOCOalkylOalkyl in which each alkyl is C_._ , _-alkyl and each alkoxy is Cj.- ! ,,-alkoxy each of which may be straight or branched chain and each alkyl, alkoxy, aryl or phenyl group may carry an -S0 2 F substituent or R 1 and R 2 together with the -N atom to which they are attached form a 5- or 6-membered ring such as morpholino or piperidino.

Preferred substituents for A, D and E are cyano, nitro, chloro, bromo, fluorosulphonyl, -COC-.- 6 -alkyl, -NHCOCi- s -alk l, -OCOC^-alkyL, -COOC- . . e -alkyl, -M^R 2 in which R 1 and R 2 each independently is -H, C^-alkyl, Ci-g-alkyl substituted by -OH, -C , -Cl, phenyl, -OCOC^. s -alkyl, -COO λ . e -alkyl,

--0 . coontri-

C j .. 4 - alkyl ( 4 - fluorosulphonylphenyl ) , OCO ( 3 - f luorosulphonylphenyl ) , -OOOphenyl, -0C0 (4-fluorosulphonylph<=-nyl) , -Cj.. 4 -alkenyl, -COOC x . 6 - alkylOd- β -alkyl, -OCi-g-alkylCN, -OCi-g-alkylOCOCi- e -e ylOCi-g-alk l or where R 1 and R 2 togeth€-r with the -N atom to which they are attached form a morpholino or piperidino.

The compounds of Formula (1) preferably carry a total of from one to three -SO^ groups, more preferably from one to two -S0 2 F groups .and especially one -SO^ group.

A preferred sub-group of compounds of Formula (1) are those of Formula (2) :

F ormu la [ 2 ) in which: R 1 and R 2 each independently is -H, C*.- 8 -alkyl or C*.- 6 -alkyl substituted by -OH, -CN, -F, -Cl, -Br, -S0 2 F, phenyl, phenylS0 2 F, -OCOCi-g-cilkyl, -CCOC-.- 6 -cilkyl, -COOC-.- 6 -alkcr-yC 1 - 6 -alkoxy, C__ e - alkαxy, Ci-g- lkox Ci-g-alkox , -OCC 1 _g-alkyl, alkoxy, -OCO(3-fluorosulphonylphenyl) , -OCO(4-fluorosulphonylphenyl) , -OCCphenyl or -OCCC-,- 4 - alkenyl; R 3 is -H, -S0 2 F, Ci-g-alkyl or C-.- 6 -alkαxy; R 4 is -H, -SO--F, Ci-g-alkyl, C*._g-alkoxy or -NHC0C-.- 6 -alkyl; R s , R s , R 7 , R β , R 9 and R 10 each independently is -H, C- . -g-alkyl, or -SOzF;

R 11 , R 12 , R 13 , R 14 and R 15 each independently is -H, -CN, -N0 2 , -S0 2 F,

Ci-g-alkyl, C-- 6 -alkαxy, -COCi-g-alkyl, -COOC- . -g-alkyl, -F, -Cl, -Br, -CF 3 , -N 2 , -CONR^ 2 , -SO J NR^ 2 in which R 1 and R 2 are as hereinbefore defined. In compounds of Formula (2) R 7 ,R 8 ,R 9 and R 10 each independently is preferably -H, C-._ 6 -al.cyl or Cx-g-alkoxy.

A further preferred sub-group of compounds of Formula (1) eare those of Formula (3) :

in which: F o r m u l a [ 3 )

R 1 , R 2 , R 3 ,

R 4 , R 5 , R 6 , R 11 , R 12 , R 13 , R 14 and R 15 are as hereinbefore defined for coirpounds of Formula (2) ; and

R 1S is -H, -CN, -SQ-.F, -COOC^-alkyl, -COC- L -g-alkyl or -CCOT^R 2 in which R 1 and R 2 are as hereinbefore defined; .and R 17 is -H, -CN, -SOjF or Ci.g-alkyl.

In compounds of Formula (3) R 1S is preferably -H, -CN, - CCOCi-g-alkyl, -COC-,-,--alkyl or -CON ^ 2 and R 17 is preferably -H, -CN or Ci-g-alkyl.

A further preferred subgroup of compounds of Formula (1) are those of Formula (4) :

Formula (4)

in which R 3 to R 15 are as hereinbefore defined.

In a further preferred embodiment of the present invention the compounds of Formulae (1) , (2) , (3) and (4) carry directly at least one -SO-.F group or carry a substituent to which at least one -SC^F group is attached and carry at least one ester group or carry a substituent to which at least one ester group is attached. Such dyes with both -SC^F and ester groups show improved dyeing properties, particularly wet- fas ness and light-fastness.

Compositions comprising dispersions of the compounds of Formulae (1) , (2) , (3) or (4) in which A, D -and E are as hereinbefore defined in aqueous media are novel and from a further feature of the present invention. The compositions typically comprise from 1% to 30% of a compound of Formulae (1) , (2) or (3) and are preferably buffered at a pH from 2 to 7, more preferably at a pH from 4 to 6.

These dispersions may further comprise ingredients conventionally used in dyeing applications such as dispersing agents for example lignosulphonates, naphthalene sulphonic acid/formaldehyde condensates or phenol/cresol/sulphanilic acid/formaldehyde condensates, surfactants, wetting agents such as alkyl aryl ethoxylates which may be sulphonated or phosphated, inorganic salts, de-fearners such as mineral oil or nonanol, organic liquids and buffers. Dispersing agents may be present at from 10% to 200% on the weight of the compound of Formula (1) . Wetting agents may be used at from 0% to 20% on the weight of the compound of Formula (1) . The dispersions may be prepared by bead milling the compound of Formula (1) with glass beads or sand in an aqueous medium.

According to a further feature of the present invention there is provided a process for the mass coloration of plastics which comprises incorporating into a plastics material a compound or mixture thereof which is free from water solubilising groups, of Formula (1) in which A, D and E each independently is cn optionally substituted heterocyclic or carbocyclic group and at least one of A, D or E carries directly at least one -SO-.F group or carries a substituent to which at least one -S0 2 F group is attached.

The plastics may be selected from polystyrene, acrylics, styrene/acrylonitrile mixtures, acrylαnitrile/butadiene/styrene mixtures, polycarbonate, polyether-εulphone, nylons, rigid PVC (uPVC) and polypropylene.

The compound may be incorporated by blending with granules or powdered plastics material by, for example, dry tumbling or high- speed rrdxing followed by injection moulding on a screw machine or by conventional corrpound-Lng/masterbatching techniques. The present dyes generally dissolve or disperse readily in hot plastics melt and provide bright coloration generally with good clarity and good light fastness. The plastics materials when coloured with the above dyes form a further feature of the present invention.

A number of cotrpounds of Formula (1) used in the above coloration process are novel except for

1- (4-hydroxyphenylazo)-2-methσxy-4- (4-fluorosulphonylphenylazo)benzene; 1- (2-chloro-4-nitroph€-nylazo) -5-rrethyl-2-fluorosulphαnyl-4- (2-hydrcxy-3- (carbonyl (N-phenyl)amino)naphth-l-ylazo)benzene;

1- (2-me1_hyl-5-fluorosulphonylphenylazo)-3-ethoxy-4- (2-hydrαxy-3- (carbonyl(N-phenyl)amino)naphth-1-ylazo)benzene;

1- (3-fluorosulphonylphenylazo) -2,5-dimethoxy-4- (2-hydroxy-3- (carbonyl(N- naphth-1-yl)amino)naphth-1-ylazo)benzene; and 1- (2-methyl-5-fluorosulphonylphenylazo)-4- (2-hydroxy-3- (carbonyl(N- phenyl)am-Lno)naphth-1-ylazo)naphthalene and these form a further feature of the present invention.

The compounds of Formula (1) may be prepared by usual methods for the preparation of disazo compounds such as by diazotisation of an amine A-NB- and coupling onto a component X-D-NH- in which A and D are as hereinbefore defined and X is a group displaceable by a diazotised amine, followed by diazotisation of the resultant monoazo compound A-N.-N-D-NH- and coupling onto a component E-X in which E and X are as hereinbefore defined. Typically the amine A-NB, may be diazotised in cn acidic medium such as acetic or propionic acid or mixtures thereof using a nitrosating agent such as nitrosyl sulphuric acid at a temperature from -5°C to 5°C. The diazotised amine may be coupled onto the component X- D-NH- in an alkanol such as methanol and water at a temperature of from 0°C to 5°C. The monoazo compound A-N--N-D-NH-, may be recovered from the

reaction mixture by filtration. The A-N=N-D-NH 2 may be diazotised in cn acidic medium such as acetic or sulphuric acid or mixtures thereof using a nitrosating agent as described above and coupled onto a component E-X in aqueous medium preferably whilst rnaintaining the pH at about 3. The A-N=N-D-N=N-E product may be recovered from the reaction mixture by filtration and may be purified by slurrying in an alkanol such as methanol and refiltering.

Fluorosulphonyl groups may be introduced into the coπpσunds of Formula (1) or into the A, D and E components prior to coupling by methods generally available in the literature. For example reaction of the compound of Formula (1) , A-NH-,, the NH 2 being protected as necessary, D-X in which A and D are as hereinbefore defined, with chlorosulphonic acid optionally in the presence of dimethylformamide and thionylchloride at a temperature of from 30°C to 100°C gives the chlorosulphonyl derivative. The chlorosulphonyl derivative may be reacted in boiling aqueous media with potassium fluoride to give the fluorosulphonyl derivative.

Alternatively the compound of Formula (1) , A-NH-., or D-X may be sulphonated with sulphuric acid or oleum to give the sulphonic acid derivative which may be conv rted to the chlorosulphonyl derivative by ' reaction, either of the free acid or an inorganic salt thereof, with thionylchloride optionally in the presence of a chlorσphosphorus compound such as phosphorus oxychloride or phosphorus pentachloride in an organic liquid such as an aromatic hydrocarbon at a temperature of from 20°C to 110°C. The chlorosulphonyl derivative may then be converted to the fluorosulphonyl derivative as described above.

The compound of Formula (1) is useful for the coloration of synthetic textile materials particularly polyester textile materials and fibre blends thereof to which they impart colours which -are excellent wet and light fastness properties.

The invention is further illustrated by the following Examples.

Example 1

4-Aminobenzenesulphonyl fluoride (4 parts) was stirred in acetic/prcpionic acid 86/14 vol/vol (250 parts) at 0-5°C. While maintaining the temperature below 10°C, 40% nitrosyl sulphuric acid (4.8 parts) was added carefully and stirred for 1.5 hours before adding slowly to 2-am-Lno-3-cyanot-hiophene (4.2 parts) in methanol (625 parts) and ice/water (840 parts) . The pH was maintained at 3 by the addition of sodium acetate and 50% sodium hydroxide solution. After stirring at 0-5°C for a further 2 hours filtration yielded 3.3 parts of 2-amino-3- cyano-5- (4'-sulphonylfluorophenylazo)thiophene.

2-Amino-3-cyano-5- (4'-sulphonylfluorophenylazo)thiophene (12.5 parts) was stirred in glacial acetic acid (830 parts) at 15°C while 50% sulphuric acid (375 parts) was added slowly. On cooling further to 0-5°C, 40% nitrosyl sulphuric acid (18 parts) was added carefully and the reaction stirred for 2 hours before addi g slowly, while maintaining the pH at 3 by the addition of 50% sodium hydroxide solution, to a mixture of N,N-bis- (p-acetoxyethyl) -aniline (15 parts) in ice/water (960 parts) , sulphamic acid (10 parts) and saturated sodium acetate solution (50 parts) . The product was isolated by filtration, washed with water and pulled dry. The damp solid was then slurried in methanol (100 parts) , refiltered and dried overnight to yield 4- (3- cyano-5- (4'-sulphonylfluorophenylazo)-2-thiophene-azo) -N,N-bis- (p- acetoxyethyl)-aniline (4 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 2

The procedure for Example 1 was repeated except that in place of 15 parts of N,N-bis- (p-acetoxyethyl)-.aniline; 15 parts of N- (2- cyanoethyl)-N- (2-methcκy-carbonylethyl) -m-toluidine were used to yield 4- (3-cyano-5- (4'-sulphonylfluorophenylazo)-2-thiophene-azo) - N- (2- cyanoethyl) -N- (2-me1.-ho--y-carbonyleth.yl) -m-toluidine (3.8 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 3

The procedure for Example 1 was repeated except that in place of 15 parts of N,N-bis- (p-acetoxyethyl) -aniline; 15 parts N,N-bis- (2-cyanoethyl)-aniline were used to yield the product 4- (3-cyano-5- (4'- sulphonylfluoro-phenyl azo) -2-thiophene-azo)-N,N-bis- (2-cyanoethyl)- aniline (2.2 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades, 575nm.

Example 4

The procedure for Example 1 was repeated except that in place of 15 parts of N,N-bis- (p-acetcxyethyl) -aniline; 15 parts of N-

ethyl-N- (2-car-xκyethyl)-aniline were used to yield the product 4- (3- cyano-5- (4'-sulphonylfluorophenylazo) -2-thiophene-azo) -N-ethyl-N- (2- carboxyethyl) -aniline (2.4 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades. λ max 637nm.

Example 5

The procedure for Example 1 was repeated except that in place of 15 parts of N,N-bis- (p-acetoxyethyl)-caniline; 15 parts of N,N- diethyl m-acetanilide were used to yield the product 4- (3-cyano-5- (4'- sulphonylfluoroph€-nylazo)-2-thiqphene-azo) -N,N-diethyl m-acetanilide (6.5 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 6 3-Aπύι-cbenzenesulphαnyl fluoride hydrochloride hydrate (4 parts) was stirred in acetic/propionic acid 86/14 vol/vol (250 parts) at 0-5°C. While maintaining the temperature below 10°C, 40% nitrosyl sulphuric acid (4.8 parts) was added carefully and stirred for 1.5 hours before addi g slowly to 2-amino-3-cyanothiophene (4.2 parts) in methanol (625 parts) , ice/water (840 parts) . The pH was maintained at 3 by the addition of sodium acetate and 50% sodium hydroxide solution. After stirring at 0-5°C for a further.2 hours filtration yielded 3.3 parts of 2-amino-3-cyano-5- (3'-sulphonyl fluoro-phenylazo)-t-hiqphene.

2-Aιr±no-3-cyano-5- (3'-sulphonylfluoro-phenylazo) -thiophene (12.5 parts) was stirred in glacial acetic acid (830 parts) at 15°C while 50% sulphuric acid (375 parts) was added slowly. On cooling further to 0-5°C, 40% nitrosyl sulphuric acid (18 parts) was added carefully and the reaction stirred for 2 hours before addi g slowly, while maintaining the pH at 3 by the addition of 50% sodium hydroxide solution, to a mixture of N,N-diet-hylaniline (15 parts) was stirred in ice/water (960 parts) , sulphamic acid (10 parts) and saturated sodium acetate solution (50 parts) . The diazo (12.5 parts) was then added slowly. The product was isolated by filtration, washed with water and pulled dry. The damp solid was then slur ied in methanol (100 parts) , refiltered then washed with water to yield 4- (3-cyano-5- (3'- sulphonylfluorophenylazo) -2-thiophene-azo)-N,N-diethyl aniline (1.7 parts) . When applied to polyester materials from an aqueous dispersion, the dye gave blue shades.

Example 7

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethyl aniline; 15 parts of N-ethyl-N- (2- cyanoethyl) caniline were used to yield the pr duct 4- (3-cyano-5- (3'- sulphonylfluorophenylazo)-2-thiophene-azo)-N-t-thyl-N- (2-cyanoethyl)

aniline (7 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 8 The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethyl aniline; 15 parts of N- (2-cyanoethyl) - N- (acetcxyethyl)caniline were used to yield the product 4- (3-cyano-5- (3'- sulphonylfluorophenylazo) -2-thiophene-azo) -N- (2-cyanoethyl) -N- (acetcxyethyl)aniline (2 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades. λ max 585nm.

Example 9

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethyl caniline; 15 parts of N-octyl-N- (sec)butyl-aniline were used to yield the product 4- (3-cyano-5- (3'- sulphonylfluorophenylazo)-2-thiophene-azo)-N-octyl-N- (sec)butyl-aniline (1.5 parts) which when applied to polyester materials from an aqueous dispersion gave blue/green shades.

Example 10

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethyl aniline; 15 parts of N,N-diethyl m- acetanilide were used to yield the product 4- (3-cyano-5-(3'- sulphonylfluorophenylazo)-2-thiophene-azo)-N,N-diethyl m-acetanilide (3 parts) which when applied to polyester materials from an aqueous dispersion gave blue/green shades.

Example 11

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethyl aniline; 15 parts of N-butyl-N-secbutyl m-acetanilide were used to yield the product 4- (3-cyano-5- (3 '- sulphonylfluorophenylazo)-2-thiophene-azo)-N-butyl-N-sec-but yl m- acetanilide (8.5 parts) which when applied to polyester materials from an aqueous dispersion gave blue/green shades.

Example 12

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethyl aniline; 15 parts of N-ethyl-N-benzyl- aniline were used to yield the product 4- (3-cyano-5-(3'-sulphonylfluoro- phenylazo) -2-thiophene-azo) -N-ethyl-N-benzyl-eaniline (2.3 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 13

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diet-hylaniline; 15 parts of N-ethyl-N-2- iscprcpenoxyccrbonylethylcaniline were used to yield the product 4- (3- cyano-5- (3'-sulphonylfluorophenylazo) -2-thicphene-azo)N-ethyl-N-2-iso- propenoxycarbonyl-ethyl-aniline (2 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 14 3-Aπuno-4-methoxyb<3nz€-nesulE-honylfluoride (4 parts) was stirred in acetic/prcpionic acid 86/14 vol/vol (250 parts) at 0-5°C. While maintaining the temperature below 10°C, 40% nitrosyl sulphuric acid (4.8 parts) was added carefully and stirred for 1.5 hours before adding slowly to 2-£-mino-3-cyanothicphene (4.2 parts) in methanol (625 parts) , ice/water (840 parts) . The pH was maintained at 3 by the addition of sodium acetate and 50% sodium hydroxide solution. After stirring at 0- °C for a further 2 hours filtration yielded 3.2 parts of 2-amino-3-cyano-5- (2'-methoxy-5'-sulphonylfluoro-phenylazo) -thiophene. 2-Amino-3-cyano-5- (2'-methoxy-5'-sulphonylfluorophenylazo)- thiophene (12.5 parts) was stirred in glacial acetic acid (830 parts) at 15°C while 50% sulphuric acid (375 parts) was added slowly. On cooling further to 0-5°C, 40% nitrosyl sulphuric acid (18 parts) was added carefully and the reaction stirred for 2 hours before adding slowly, while maintaining the pH at 3 by the addition of 50% sodium hydroxide solution, to a mixture of N- (2-cyanoethyl)l-N-acetoxyethylaniline (15 parts) was stirred in ice/water (960 parts) , sulphamic acid (10 parts) and saturated sodium acetate solution (50 parts) . The product was isolated by filtration, washed with water and pulled dry. The damp solid was then slurried in methanol (100 parts) , refiltered then washed with water to yield 4- (3-cyano-5- (2'-methoxy-5'-sulphonylfluorophenyl¬ azo)-2-thiophene-azo)-N,N-diethyl aniline (3 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 15 The procedure for Exaπple 14 was repeated except that in place of 15 parts of N- (2-cyanoethyl) -N-acetoxyethyl aniline; 15 parts of N-butyl-N- (2cyanoethyl) aniline were used to yield the product 4- (3- cyano-5- (2'-methoxy-5'-sulphonylfluorophenylazo) -2-thiophene-azo)-N- butyl-N- (2-cyanoethyl)aniline (6 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 16

3-Aminobenzenesulphonylfluoride hydrochloride hydrate (4 parts) was stirred in acetic/prcpionic acid 86/14 vol/vol (250 parts) at 0-5°C. While rnaintaining the temperature below 10°C, 40% nitrosyl

sulphuric acid (4.8 parts) was added carefully and stirred for 1.5 hours before addi g slowly to 2-a-ιr_no-3-ethoxycarbonyl-t±iophene (4.2 parts) in methanol (625 parts) , ice/water (840 parts) . The pH was maintained at 3 by the addition of sodium acetate and 50% sodium hydroxide solution. After stirring at 0-5°C for a further 2 hours filtration yielded 3.3 parts of 2-aπιino-3-ethαxycarbonyl-5- (3'-sulphonylfluoro¬ phenylazo)thicphene.

2-Am-l-io-3-et±-oxycarbonyl-5- (3'-sulf-honylfluorophenylazo)- thiophene (12.5 parts) was stirred in glacial acetic acid (830 parts) at 15°C while 50% sulphuric acid (375 parts) was added slowly. On cooling further to 0-5°C, 40% nitrosyl sulphuric acid (18 parts) was added carefully and the reaction stirred for 2 hours before adding slowly, while iraintaining the pH at 3 by the addition of 50% sodium hydroxide solution, to N-ethyl-N- (2-cyanoethyl) -aniline (15 parts) was stirred in ice/water (960 parts) , sulphamic acid (10 parts) and saturated sodium acetate solution (50 parts) . The product was isolated by filtration, washed with water and pulled dry. The damp solid was then slurried in methanol (100 parts) , refiltered then washed with water to yield 4- (3- ethoxycarbonyl-5- (3'-sulphonylfluoro-phenyl-azo)-2-thicphene-azo)-N- ethyl-N-(2-cyanoethyl)-aniline (2.7 parts) which when applied to polyester materials from an aqueous dispersion gave blue shades.

Example 17

The procedure for Example 1 was repeated except that in place of 15 parts of N,N-bis- (p-acetoxyethyl) -aniline; 15 parts of N- ethyl-N- ( (4-sulphonylfluorophenyl)-prcpyl)-aniline was used to yield the product 4- (3-cyano-5- (4'-sulphonylfluoro-phenylazo)-2-thicphene-azo) -N- ethyl-N- ( (4-sulphonylfluorophenyl)-ethyl) -caniline (0.25 parts) . When applied to polyester materials from an aqueous dispersion, the dye gave blue shades, λ- a -.649nm.

Example 18

The procedure for Example 6 was repeated except that in place of 15 parts of N,N-diethylaniline; 15 parts of N-ethyl-N- ( (4- sulphonylfluorophenyl)-ethyl)-aniline was used to yield the product 4- (3-cyano-5- (3'-sulphonylfluoro-phenylazo)-2-thiophene-azo)-N-ethyl-N- ( (4-sulphonylfluorophenyl) -ethyl) -aniline (4 parts) . When applied to polyester materials from an aqueous dispersion, the dye gave blue shades, λ-^.629nm.

Example 19

The procedure for Example 14 was repeated except that in place of 15 parts of N- (2-cyanoethyl) -N-acetαxyethylaniline; 15 parts of N-ethyl-N- ( (4-sulphonylfluorophenyl)-ethyl)-aniline was used to yield the product 4-(3-cyano-5- (2'-methoxy-5'-sulphonylfluoro-phenyl azo)-2-

thiophene-azo) - N-ethyl-N- ( (4-sulphonylfluorophenyl)-ethyl) -caniline (1.6 parts) . When applied to polyester materials from an aqueous dispersion, the dye gave blue shades, λ max 627nm.

Example 20

The procedure for Example 16 was repeated except that in place of 4 parts of 3-aminobenzenesulphαπyl fluoride hydrochloride hydrate; 4 parts of 4-rιitroaniline was used and in place of 15 parts of N-ethyl-N- (2-cyanoethyl)-aniline; 15 parts of N-ethyl-N- ( (4- sulphonylfluorophenyl)-ethyl)-aniline was used. This yielded 4- (3- ethcxycarbonyl-5- (4'-nitro-phenyl-azo) -2-thiophene-azo)-N-ethyl-N- ( (4- sulphonylfluorophenyl)-ethyl) -aniline (1.9 parts), which when applied to polyester materials from can aqueous dispersion gave blue colours.

Example 21

Sulphaninyl fluoride (4 parts) was stirred in acetic/prcpionic acid 86/14 vol/vol (250 parts) at 0-5°C. While maintaining the temperature below 10°C, 40% nitrosyl sulphuric acid (4.8 parts) was added carefully and stirred for 1.5 hours. The diazo component was then added slowly to 2,5-

<±Lmet^tιoxyaniline (4.1 parts) in methanol (625 parts) and ice/water (840 τ -s) .The pH was maintained at 5-6 by the addition of sodium acetate. A" stirring at 0-5°C for 2 hours the mixture was allowed to warm to rt. cemperature before being filtered to yield 3.8 parts of 2,5- dimethoxy-4- (4'-sulphonylfluorophenyl-azo) -aniline.

1 5-Dimethoxy-4- (4'-sulphonylfluorophenyl-azo) -aniline (8 parts) was stirred in cone, sulphuric acid (750 parts) . On cooling to 0- 5 C C, 40% nitrosyl sulphuric acid (12 parts) was added carefully and the reaction stirred for 1 hour before being allowed to warm to room temperature.

N-Ethyl-N- (4'-fluorosulphonylbenzyl)-aniline (14 parts) was stirred in ice/water (960 parts) , sulphamic acid (10 parts) and methanol (1250 parts) . The diazo (8 parts) was then added slowly while maintaining the pH at 5-6 by the addition of sodium acetate and sodium carbonate solution. The oil obtained was the taken up in dici-loromethane and purified by column chromatography. Yielded 0.1 parts of the product 4- ( 2' ,5' -Dimethoxy-4- (4' '-sulphonylfluorophenyl-azo)-phenylazo) -N- ethyl-N- (4'-fluorosulphonylbenzyl) -aniline, A--^ 536nm.

Example 22

The procedure for Example 21 was repeated except that in place of 14 parts of N-ethyl-N- (4'-fluorosulphonylbenzyl)--aniline; 14 parts of N,N-di-butyl -m-toluidine was used to yield the product 4- ( 2' ,5'-Dimethoxy-4- (4' '-sulphonylfluorophenyl-azo)-phenylazo)-N,N- dibutyl-toluidine (0.27 parts) .

Example 23

2-Methyl-4- (4'-phenylazo-phenylazo) -phenol (3.2 parts) was carefully added to stirring chlorosulphonic acid (376 parts) . Thienyl chloride (82 parts) was then added and the mixture heated at 90°C for 28 hours. The reaction mixture was then drowned out into ice/water very carefully and filtered. The solid was washed several times with water until the washings were neutral before drying to yield 5- (4'- (4' '- chlorosulphonyl-phenylazo)-phenylazo) -2-hydroxy-3-methyl- benzenesulphonyl chloride (3.1 pearts) . 5- (4'- (4' '-Chlorosulphonyl-phenylazo)-phenylazo) -2-hydroxy-

3-methyl-benzenesulphonyl chloride (1.95 parts) was stirred in 1,4- diαxan (117.5 parts) before potassium fluoride (34 parts) dissolved in water (440 parts) was added over 2-3 minutes. After heating at 50-60°C for 2 hours the reaction mixture was cooled and filtered. The solid was washed with water and dried to yield 5- (4'- (4' '-fluorosulphonyl- phenylazo)-phenylazo)-2-hydroxy-3-methyl-benzenesulphonyl fluoride (1.6 parts) .

Example 24 The procedure for Example 23 was repeated except that the starting dye was 4- (4'-phenylazo-naphth-1-ylazo)-phenol (5.7 parts) and the treatment with chlorosulphonic acid was carried out at 75°C. The product (2.1 parts) was found to be a mixture of two compounds, 5-(4' '- (4'-fluorosulphonyl-phenylazo)-naphth-1-ylazo) -2-hydroxy-benzene sulphonyl fluoride and 5- (4''- (4'-fluorosulphonyl-phenylazo) -naphth-1- ylazo) -2-hydroxy-benzene-l,3-disulphαnyl fluoride.

Example 25

The procedure for Example 23 was repeated except that the starting dye was l-methyl-3- (4-phenylazo-phenylazo) -lH-quinolin-2-one

(2.2 parts) and heating with cMoro-STjlphαnic acid was carried out for 2 hours. The product (0.6 parts) was found to be a mixture of l-methyl-3- (4<_ (4 1 i -fluorosulphonyl-phenylazo)-phenylazo)-4- (lH-quinolin-2-onyl)- sulphonyl fluoride and l-methyl-3- (4-phenylazo-phenylazo)-4- (1H- quinolin-2-onyl)-sulphonyl fluoride.

Example 26

The procedure for Example 23 was repeated except that the starting dye was 4- (4'-(4'•-nitro-phenylazo)-phenylazo)-phenol (11.5 parts) and that the dye was heated at 75-80°C with the chlorosulphonic acid. The product (5.5 parts) was found to be a mixture of two compounds, 2-hydroxy-5- (4'- (4' '-nitro-phenylazo)-phenylazo)- benzenesulphonyl fluoride and 2-hydroxy-5- (4'- (4 1 '-nitro-phenylazo)- phenylazo)-benzene-1,3-disulphonyl fluoride.

Example 27

The procedure for Example 23 was repeated except that the starting dye was 2-methyl-4- (2' ,5'-dimethyl-4'- (4' '-nitro-phenylazo)- phenylazo) -phenol (3.85 parts) and that the dye was heated for only 3 hours with chlorosulphonic acid. The product of the reactions was found to be 2-hydrαxy-3-methyl-5- (2' ,5'-dimethyl- '- (4' '-nitro-phenylazo)- phenylazo)-benezenesulphonyl fluoride (0.2 parts).

Example 28 The procedure for example 23 was repeated except that the starting dye was 2-methyl- (3,3'-dichloro-4'- (4-hydrcκy-3-methyl- phenylazo) -biphenyl-4 ylazo) -phenol (3.05 parts) and the dye was heated for only 3 hours. The product (2.95 parts) was found to be a mixture of two compounds, 5- (3,3'-dichloro- '- (3-fluorosulphαnyl-4-hydroxy-5- methyl-phenylazo) -biphenyl-4-ylazo)-2-hydroxy-3-methyl-benezenesulphonyl fluoride and 5- (3,3'-dichloro-4'- (3-methyl-4-hydroxy-phenylazo)- biphenyl-4-ylazo)-2-hydroxy-3-methyl-benezenesulphonyl fluoride.