• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
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    • 专利摘要:
    1. GnOGOB OBTAINING 4,1,6-. -TRICHLOR-4,1, 6 -TPIDEZOKGIGALAKAKTOGAKHAROSA, which includes treating 0-acetylsucrose derivatives with carboxylic acid to obtain 2,3,6,3,4-penta-0-acetylsucrose, chlorinating the resulting product and de-acetylating chloro & sodium methoxide solution, characterized in that. € Gd, ps: yy, that. 2,3,4,3,4 penta-O-acetyl sucrose is used as a 0-acetyl sucrose derivative, and the treatment is carried out with a carboxylic acid solution of the general formula RGOOH, where R is H, lower alkyl or phenyl, in a concentration of 2-10 wt.% in toluene or metshshobutilketone at 110-. . 2. Gnoco6 POP.1, characterized in that the chlorination is carried out using phosphine derivatives of the general formula, where R is phenyl or styryl bound to polystyrene, in combination with tetraporous carbon in pyridine at 20-80 G or CO tHGIG N reagent (GH3). in toluene, I or 1,1,2-trichloromethane, or a reagent of the general formula RgPGIj, where R is a phenyl or phenoxyl group, in pyridine at 50-85 ° G, if R is a phenyl group or at ambient temperature, if H R - phenoxyl group, or sulOD furyl chloride in the amount of 2-5 ml 00 per 1 g of sucrose pentaacetate at 4 20-80 ° G. j Priorities for items 12/20/1979 to Clause 1, 28.03.80, 02.04.80, 20.05.80, 14.11.80 to Clause 2.
    公开号:SU1176844A3
    申请号:SU803221447
    申请日:1980-12-19
    公开日:1985-08-30
    发明作者:Джаксон Грэхем;Ральф Дженнер Майкл;Уэйт Дэвид;Клайв Уильямс Джон
    申请人:Тейт Энд Лайл Паблик Лимитед Компани (Фирма);
    IPC主号:
    专利说明:

    1 The invention relates to a method for producing an effective sweetening agent 4.1, b-trichloro-4, t, b-three 4; deoxygalactosucrose. The trichloro galactosucrose (TGS) compound is an effective sweetening agent with a degree of sweetness several hundred times higher than sugar rose. It is taken as a sugary agent or in sweetener compositions Cl. The main task of the synthesis of TGS is the chlorination of positions 4, 1 and 6 of the sucrose molecule and the chlorination of other positions. For this, it is possible to chlorinate sucrose derivatives having blocked positions 2,3,6,3 and 4 using the ester group, so that only positions 4,1 and 6 are suitable for chlorination. A known method for the preparation of TGS, which involves treating 6,1, b-tristrityl pentaacetate a of sucrose in glacial acetic acid at boiling to obtain 2,3,6,3 -penta-0-acetyl sharose, followed by chlorination with sulphuryl chloride and deacetylation for obtaining the desired product 2. I The disadvantage of the method is the low yields of 2,3,6,3,4-penta-0-acetyl sucrose and the desired product at the stages of re-acetylation and chlorination, respectively. The purpose of the invention is to obtain TGS with a higher yield. The objective is achieved by the method of obtaining 4,1, 6-trichloro-4,1, b-trideoxygalactosucrose, including treating 0-acetylsucrose derivatives with carboxylic acid to obtain 2,3,6,3, 4-penta-0-acetyl sucrose, chlorination of the product obtained and deacetylation of the chlorinated product in a methanol solution of sodium methylate, which consists in the fact that, to increase the yield of the target product, 2,3,4,3 are used as a derivative of 0-acetyl sucrose, 4-penta-O-acetylsucrose, and processing is carried out with a carboxylic acid solution of the general formula RCOOH, where RH, lower alkyl or phenyl, in a concentration of 2-10 wt.% in toluene or methyl isobutyl ketone at 110-130 C. 42 Chlorination is carried out using phosphine derivatives of the general formula PPhjR, where R is phenyl or styryl bound to polystyrene in combination with carbon tetrachloride in pyridine at 20-80 ° C or a reagent of the general formula tHCIC N (CHj) in toluene or 1,1,2-trichloromethane, or RJ PCIj reagent, where R is phenyl or a phenoxyl group in pyridine at 50-85 ° C, if R is a phenyl group, or an ambient temperature in the amount of 25 ml per 1 g of sucrose pentaacetate at 20-80 ° C. Example 1. Preparation of 2,3,6,3,4 -penta-0-acetyl sucrose (starting material). A. Use of methyl isobutyl ketone. 2,3,4,3,4-Penta-0-acetyl sucrose (2 g) is dissolved in methyl isobutyl ketone (20 ml) and acetic acid (1 ml) is added. The reaction mixture was heated under reflux (about 126 seconds) for 3 hours. While cooling, the product crystallized to form 1.5 g of 2,3,6,3, 4 -penta-0-acetyl sucrose. 75% yield. B. Use of toluene. 2, 3, 4, 3, 4-11-0-acetyl-sucrose (2 g, purity 83.63%) and glacial acetic acid (0.2 l) are added to toluene (10.0 l), the mixture is heated to boil and reflux for 6 hours or until acetyl migration is complete. The solution is cooled to room temperature, the precipitate is filtered, washed with fresh toluene and dried in a BaKyvMe furnace at 40 ° C. to obtain 2,3,6,3, 4 -penta-0-acetyl sucrose (15.90 g, purity 87.65%), total yield of 83.3%. Example 2. Obtaining 4,1, b-trichloro-4, l, b -tride-oxy-galactosucrose. Stage 1. Tritylation and acetylation. Sucrose and trityl chloride (270 g) are added to dry pyridine (600 mg) and stirred at 65 ° C for 18 hours. Then pyridine is removed in vacuo and the syrup product is acetylated by adding acetic anhydride (600 ml) with stirring
    3
    at room temperature for 12 hours. The reaction mixture is poured into ice-cold water with stirring, the precipitate formed is filtered and dried to constant weight. A solution of this precipitate in dichloromethane (1 L) is dried over sodium sulfate and concentrated to a syrup, which is redissolved in methanol, diluted with toluene and concentrated to remove traces of pyridine. The product is crystallized from a mixture of acetone - methanol (1: 9,500 ml) with pentaacetate 6,1, 6 -tri-0-trityl sucrose (260 g, 70%).
    Stage 2. Detrification.
    Pentaacetate 6.1, b -tri-0-trityl sucrose (50 g) is dissolved in dichloromethane (500 ml) and acetic acid (500 ml), the solution is cooled to and concentrated hydrochloric acid (10 ml) is added. The reaction mixture is stirred for 2 hours, then neutralized by the addition of Amberlite IR 45 (OM) resin. The reaction mixture is stirred for 1 h, concentrated to a syrup and methanol (200 ml) is added. After 3 h at precipitated triphenylmethanol (27.6 g, 96%), the solution was filtered and the solution was concentrated to a syrup. Acetone (400 ml) is added and the solution is provided with charcoal and concentrated to the consistency of a light syrup. Ether (300 ml) was added, 2,3, A, 3, 4-penta-0-acetyl sucrose crystallized at room temperature (yield 20.5 g, 95%).
    Stage 2c. Acetyl Migration.
    2,3,4,3, 4 -Pent-O-acetyl sucrose (20 g) is dissolved in methyl isobutyl ketone (200 ml) and acetic acid (10 ml) is added, the reaction mixture is heated under reflux at 125 ° C. for 2.75 hours, then cooled to and added petroleum ether (60-80 ° C / 200 ml). With further cooling, 2,3,6,3,4 -penta-0-acetyl sucrose crystallizes. After 16 h at O C, the crystalline product is filtered, washed with diethyl ether and dried. Yield 15.2 g (75%).
    Stage 3. Chlorination with sulphuric chloride.
    A solution of sulfuryl chloride (15 ml) in 1,2-dichloroethane (15 ml) is added to a solution of 2,3,6,3,4444
    - penta-0-acetylsucrose (5 g) in pyridine (15 ml) and 1,2-dichloroethane (15 ml) without external cooling. Due to the exothermic reaction, the temperature rises to 45-55 ° C. The reaction mixture is then heated under reflux for 4 hours, cooled, and dichloroethane (50 ml) is added. The resulting solution is washed successively with 10% hydrochloric
    acid (100 ml), water, 10% sodium bicarbonate solution until neutralized. The organic phase is dried, condensed to a syrup and crystallized from toluene (25 ml), to obtain pentaacetate 4-1, b-trichloro-4, l, 6-trideoxygalactosucrose i. Yield 4, 1 g (75%).
    Stage 4. Deacetylation.
    Pentaacetate 4, 1, 6-trichloro-4, 1, 6-trideoxy-galactosucrose (20 g) is dissolved in methanol (200 ml) and 1.0 N sodium methoxide in methanol is added to pH 9. The reaction mixture is stirred at room temperature in for 4 h, then neutralized with Amberlite 15 ion exchange resin (), filtered and evaporated to dryness. The solid is dissolved in distilled water (60 ml), a cloudy solution is obtained, which is filtered to obtain a clear, colorless solution. An aqueous solution of TGS is concentrated to dryness. The yield of 12.6 g (96%). The total yield per sucrose is 36%.
    Example 3 Chlorination Using Polymer Bound Triphenylphosphine
    to a suspension of polyphenol-bound triphenylphosphine (8 g, 6 mol. equiv., taking approximately 80% substitution in the polymer) in pyridine (38 ml) at 0 ° C is added
    carbon tetrachloride (2 g,
    3 mol. Equiv.) And then 2,3,6,3,4-penta-0-acetylsucrose (2.3 g, 1 mol. Equ.).
    The mixture is heated at 80 ° C for 4 hours, cooled and filtered. The polymeric beads are washed with dichloromethane and the combined filtrates and washings evaporate to dryness. The residue is dissolved in dichloromethane, the solution is washed successively with 1 M hydrochloric acid, saturated aqueous sodium hydrogen carbonate solution and water, and then dried over
    sodium sulfate. The solution is filtered through charcoal and evaporated to give 2.3 g of crude trichloro-containing product. Upon crystallization of the crude product from ethanol, 1.4 g (67%) of crystalline 4,1, b-trichloro-4, t, 6-tréoxy-2, 3,6,3 -4 -penta 0-acetylgalactosucrose are obtained. An additional amount of the substance is obtained from the mother liquor.
    Example 4. Chlorination using triphenylphosphine.
    To a solution of 2,3,6,3,4-penta-0-acetyl sucrose (4.9 g, 1 mol. Equiv.) In pyridine (100 ml), triphenylphosphine (13.1 g of 6 mol. Equiv. ), then carbon tetrachloride (3.9 g, 3 mol. Sq.). The mixture is heated for approximately 3 hours and then cooled. Methanol (120 ml) is added to the cooled mixture, the mixture is evaporated to dryness, and the residue is dissolved in methylene chloride and successively washed with 1 M HCl and NaHGOj solutions, dried over sodium sulfate and hydrated over charcoal and finally evaporated to form a syrup. Acetone is added to the residue and the substances which are not dissolved are filtered off. The solution is again evaporated and the residue is recrystallized from ether. These crystals do not contain sugar and are discarded, the solution is evaporated, crystallized from ether / benzene, 3.4 g (60%) of sucrose pentaacetate, slightly contaminated with triphenylphosphine oxide, is obtained. Recrystallization gives pure product (2.3 g, 40 %).
    b
    Example 5. 4.1, 6-Trichloro-4, 1, 6-trideoxy-galactosucrose2, 3.6-3J4-penta-0-acetate from a reagent obtained from PC and dimethylformamide.
    Phosphorus phosphorus (50 g, 0.24 mol) is added in small portions to, CMP (140 g, 1.92 mol) with stirring, the temperature rises to about 120 C. Then the mixture is cooled to 0 ° C, crystallized N-dimethylchloromethanimine-chloride, which is filtered off, to 1J1,2-trichloroethane (120 ml) is added the chl.oride N, N-dimethyl-chloromethimimine (14 g
    4 mol.eq.). This mixture is cooled to 0 ° C and 2,3,6,3,4 -Pent-0-acetyl-sucrose (15 g, 1 mol. Equiv.) Is added, 5 the combined mixture is stirred and refluxed under nitrogen atmosphere for 4 h and then cooled. The cooled reaction mixture is filtered through
    0 a strip of charcoal washed with dichloromethane. The combined: filtrates and washings are evaporated to dryness, the residue is recrystallized from ethanol,
    5 get 13.45 g (82%) of trichloropentaacetate.
    Example 6. Reaction 2,3,6,3, 4 -Pent-0-acetylsucrose with Vilsmeier's reagent, obtained from chloh
    0 plum thionyl and dof.
    Thionyl chloride (8.5 ml) was added to daF (8.4 ml), the mixture was heated, and syrup was obtained by evaporation in vacuum at 50 ° C.
    5 syrup was added 1,1,2-trichloroethane (120 ml), the mixture was cooled to 0 ° C, 2,3,6,3, 4-sucrose pentaacetate (15 g) was added to this mixture, the mixture was boiled with reflux
    0 for 3 hours, cooled and filtered through charcoal, the red-brown filtrate is evaporated to dryness. The resulting syrup is crystallized from ethanol, get 11.8 g
    5 (72%) slightly colored crystals. Upon recrystallization, an almost colorless crystalline trichlorosaccharose pentaadetate is obtained.
    Example 7 Preparation of pentaacetate 4,1, 6-trichloro-4,1, b-trideoxy-galactosucrose using Wilsmeier reagent
    2,3,6,3,4 -Pent-0-acetyl saccharose (5 g, purity 80%) is dissolved in a mixture of toluene (40 ml), diethylformamide (8.6 ml), and the stirred reaction mixture is gradually increased over 15 minutes a solution of thionyl chloride (8.3 ml) in toluene (15 ml) was added, during which time the temperature rose to. After the addition was complete, the mixture was stirred for another 15 minutes, then heated
    5-6 h. for x5,. „
    -DOM reaction followed by thin layer
    chromatogram. When the reaction is complete, charcoal, warm mixture is added to the mixture for 20 minutes, then filtered through a filter mat. The residue in the flask is washed with a small amount of toluene, which is also filtered. The combined filtrates and washings were evaporated, the residue was crystallized from toluene (20 ml), to obtain pentaacetate 4,1, b-trichloro-4, l, b-tridesoxy sucrose (4.32 g, priority 85.5%) with a total yield of 84% .
    Example 8. The reaction of 2,3,6,3 4 -penta-0-acetyl sucrose with a Vilsmeier reagent obtained from thionyl chloride and catalytic amounts of DMF,
    DMF (approximately 0.15 ml) is added to 2,3, 6,3,4-pentaacetate of sucrose (2.75 g) in 1,1,2-trichloroethane (20 ml), the mixture is brought to a boil. Thionyl chloride (1.7 ml) in 1,1,2-trichloroethane (10 ml) was added for approximately 45 minutes, the mixture was boiled for 5 hours. To the mixture was simultaneously added 0.15 ml of DMF and 1 ml of sulfuryl chloride , boiling continued for 3 h.
    The black reaction mixture is filtered through charcoal, the red-brown filtrate is evaporated to form a syrup, which upon crystallization from ethanol gives 6.3 g (40%) of trichlorosacrose pentaacetate as off-white crystals.
    Example 9. Chlorination of 2,3,6,3,4 -penta-0-sucrose acetate using triphenoxydichlorphosphorane.
     Chlorine gas is bubbled through triphenylphosphine (3.1 g, 2.6 ml, 4 mol.eq.v.) (supplied by Aldrich Chemical Ltd.) with stirring until weight gain is 0.7 g. warms up while chlorine is added and solidifies on cooling. The cooled substance is dissolved in pyridine (20 ml of sucrose 2,3, 2,3,4-pentaacetate (1.4 g, 1 mol. Eq.) Are then added and dissolved. A crystalline mixture is formed almost immediately and the mixture becomes warm. Through 10 minutes on a thin layer chromatogram (ether / benzene) the sample gives a single major product (Rf 0.5), corresponding to TGS pentaacetate, and two side components (Rf 0.3 5 and 0.0).
    The mixture is stirred for 1 h, then poured into water and extracted with dichloromethane. The extract is washed with O, IN and HC and solution
    Sodium bicarbonate, dried (sodium sulfate), filtered through charcoal and evaporated to form a pale yellow syrup. Syrup chromatographic on a column
    5 with silica gel, eluted with a mixture of diethyl ether (40-60 t) and petroleum ether (4: 1), receive TGS pentaacetate (1.2 g, 78%), which crystallizes from ethanol and turns out to be identical to the sample.
    Example 10. Chlorination of 2,3,6,3,4-penta-0-sucrose acetate using triphenyl: schichlorophosphorane.
    5 Chlorine gas is bubbled into a solution of triphenylphosphine (5.6 g / / 8 mol Svc) in carbon tetrachloride (20 ml) at 0 ° C while stirring until weight gain reaches 1.4 g.
    Care must be taken to ensure that the inlet of the tube is not blocked by the reagent formed during the reaction. Some external cooling is required,
    5 as the reaction mixture is very hot. The remaining solvent was evaporated, the residue was dissolved in pyridine (10 ml). Sucrose pentaacetate (1.4, 1 mol. Equiv.) Is added to the stirred solution, which dissolves with a slight heat release. The solution is left at room temperature for 2 hours, heated to 55 ° C for 2 hours, then to 85 ° C for 3 hours, during which time the mixture becomes very dark. Thin layer chromatography shows a single substance (Rf 0.5) corresponding to TGS pentaacetate. Pyridine is evaporated and the residue is dissolved in dichloromethane. and washed with O, IN HCl and NaHCGj, then the solution is dried (sodium sulfate), filtered through charcoal 5 to prepare a colorless filtrate, which is evaporated to form 6.5 g of syrup. Chromatography of the latter, as in Example 8, gives 1.1 g of TGS pentaacetate, which crystallizes, and ethanol in 75% yield. Example 11. Migration using butyric acid. The process of Example 2 is repeated, but in stage 2b, p-acid acid is used instead of acetic acid (ph 4.81). At this stage, the yield is about 70%. Example 12. Migration using formic acid. Example 2 is repeated, but in stage 2b, formic acid is used instead of acetic acid (pH 3.75. At this stage, the yield is about 50%. Example 13. Migration using propionic acid. Example 2 is repeated, but in stage 2b propionic acid is used instead of acetic acid. acid (ph 4.87). Approximately 72% yield is obtained at this stage. PRI mepera 14. Migration using benzoic acid (ph 4.19). Example 11 is repeated, but instead of methyl butobutyl ketone, benzoic acid solution is used in toluene. At this stage, the yield is about 90-95%. Example 15: Example 2 is repeated (herd 2b) using 2% acetic acid in about 20 ml of methyl isobutyl ketone at 125 s for 4 hours to obtain the same result. Example 16. Example 2 (step 2b) V is repeated using 10% propionic acid in about 20 ml of methyl isobutyl ketone in for 1 h with obtaining the same result. Thus, yes} (the new method allows to obtain 4.1, 6-trichloro-4, 1, 6-trideoxygalactosucrose with a yield of 54% (under production conditions l / 35%), which is more than 3 times greater than in certain cases.
    权利要求:
    Claims (2)
    [1]
    1. METHOD FOR PRODUCING 4.1 ', 6'-. -THRICHLOR-4.16 and TRIDESOXYHYGALACTOSACCHAROSES, including treating 0-acetyl-sucrose derivatives with carboxylic acid to obtain 2,3,6,3 ^ 4-penta-0-acetyl-sucrose, chlorinating the obtained product and deacetylating the chlorinated product in a methanol solution of sodium methylate, characterized in , what. 2,3,4,3 ', 4penta-O-acetylsaccharose is used as a derivative of 0-acetylsaccharose, and the treatment is carried out with a carboxylic acid solution of the general formula RCOOH 3 , where R is H, lower alkyl or phenyl, at a concentration of 2-10 wt. % in toluene or methyl isobutyl ketone at 110-. 130 ° C.
    [2]
    2. The method of Pop. 1, characterized in that the chlorination is carried out using phosphine derivatives of the general formula PPh 2 R, where R is phenyl or styryl bonded to polystyrene in combination with carbon tetrachloride in pyridine at 20-80 ° C or GNS1C reagent "AND (CHP, 7 * SG In toluene,
    I or 1,1,2-trichloromethane, or a reagent of the general formula RjPCI ^, where R is a phenyl or phenoxyl group, in pyridine at 50-85 ° C, if R is a phenyl group ^ or at ambient temperature, if R is phenoxyl group, or sulfuryl chloride in an amount of 2-5 ml per 1 g of sucrose pentaacetate at 20-80 ° C.
    Item Priorities
    12.20.79 by π.1,
    03/28/80, 04/04/80, 05/20/80,
    11/14/80 according to claim 2.
    >
    1176844 2
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    同族专利:
    公开号 | 公开日
    NO149389C|1984-04-11|
    US4362869A|1982-12-07|
    EP0031651B1|1983-03-23|
    DK546080A|1981-06-21|
    IL61763D0|1981-01-30|
    IL61763A|1984-10-31|
    PH16877A|1984-04-02|
    NZ195891A|1982-12-07|
    YU41010B|1986-10-31|
    NO149389B|1984-01-02|
    DK155946B|1989-06-05|
    AU532217B2|1983-09-22|
    DE3062467D1|1983-04-28|
    CA1152983A|1983-08-30|
    PT72208A|1981-01-01|
    FI803982L|1981-06-21|
    FI68403B|1985-05-31|
    EP0031651A1|1981-07-08|
    PT72208B|1981-10-28|
    DK155946C|1989-10-23|
    FI68403C|1985-09-10|
    NO803851L|1981-06-22|
    AU6554380A|1981-06-25|
    GR72482B|1983-11-14|
    YU317080A|1983-02-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4008218A|1972-08-25|1977-02-15|Meiji Seiki Kaisha, Ltd.|1-N--α-substituted-ω-aminoacyl)-neamine or -ribostamycin and the production thereof|
    US4117224A|1974-10-15|1978-09-26|Tate & Lyle Limited|Preparation of sucrose 6,6'-dichloro hexa-acetate|
    AT732T|1978-10-18|1982-03-15|Tate & Lyle Patent Holdings Limited|METHOD FOR PRODUCING 2-CHLORINE-2-DEOXY SACCHARIDES AND SOME OF 2-CHLORINE-2-DEOXY SACCHARIDES.|CA1213887A|1982-09-13|1986-11-12|Riaz A. Khan|Sucrose derivative|
    GB8525954D0|1985-10-21|1985-11-27|Mcneilab Inc|Chlorination of carbohydrates &c alcohols|
    GB8525871D0|1985-10-21|1985-11-27|Tate & Lyle Plc|Chemical compound|
    GB8525953D0|1985-10-21|1985-11-27|Mcneilab Inc|Preparation of galactopyranoside|
    GB8622345D0|1986-09-17|1986-10-22|Tate & Lyle Plc|Sucrose derivatives|
    GB8622342D0|1986-09-17|1986-10-22|Tate & Lyle Plc|Process|
    US4950746A|1988-07-18|1990-08-21|Noramco, Inc.|Process for synthesizing sucrose derivatives by regioselective reaction|
    GB8818430D0|1988-08-03|1988-09-07|Tate & Lyle Plc|Process|
    DE68903624T2|1988-09-16|1993-05-13|Tate & Lyle Plc|METHOD FOR CHLORINATING SUGAR.|
    GB8822673D0|1988-09-27|1988-11-02|Tate & Lyle Plc|Selective acylation of sugars|
    GB8822674D0|1988-09-27|1988-11-02|Tate & Lyle Plc|Preparation of acylated sucrose derivatives|
    US4980463A|1989-07-18|1990-12-25|Noramco, Inc.|Sucrose-6-ester chlorination|
    US5089608A|1990-03-23|1992-02-18|Mcneil-Ppc, Inc.|Selective 6-acylation of sucrose mediated by cyclic adducts of dialkyltin oxides and diols|
    US5023329A|1990-04-23|1991-06-11|Noramco, Inc.|Sucrose-6-ester production process|
    US5136031A|1990-07-09|1992-08-04|Tate & Lyle Public Limited Company|Chlorination of sugars|
    NZ240818A|1990-12-14|1993-08-26|Mcneil Ppc Inc|Liquid sucralose concentrate compositions containing preservative, buffer and liquid|
    GB9110821D0|1991-05-21|1991-07-10|Tate & Lyle Plc|Continuous process for the preparation of sucrose 6-esters|
    AU2691802A|2000-11-17|2002-05-27|Mcneil Ppc Inc|Improved sucralose composition and process for its preparation|
    US7049435B2|2002-03-08|2006-05-23|Tate & Lyle Public Limited Company|Extractive methods for purifying sucralose|
    US6998480B2|2002-03-08|2006-02-14|Tate & Lyle Public Limited Company|Process for improving sucralose purity and yield|
    US20040170735A2|2002-04-05|2004-09-02|Mcneil-Ppc, Inc.|Methods and compositions for altering the sweetness delivery profile of sucralose|
    US6890581B2|2002-04-05|2005-05-10|Tate & Lyle Public Limited Company|Methods for buffer stabilized aqueous deacylation|
    US20040086605A1|2002-10-30|2004-05-06|Sox Thomas E.|Composition for delivering a high intensity sweetener|
    US6943248B2|2003-04-30|2005-09-13|Tate & Lyle Public Limited Company|Crystalline form of sucralose, and method for producing it|
    US20050196503A1|2004-03-05|2005-09-08|Sunil Srivastava|High-intensity sweetener-polyol compositions|
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    US20080125584A1|2004-12-10|2008-05-29|Rakesh Ratnam|Salts Assisted Selective Extraction Of 6-Acetyl- 4,1' , 6' Trichlorogalactosucrose And 4,1', 6' Trichlorogalactosucrosse From Aqueous Reaction Mixture|
    CN101098972A|2004-12-10|2008-01-02|法马德医疗保险私人有限公司|Improved process for purificaton of 6 acetyl 4,1',6' trichlorogalactosucrose and 4,1',6' trichlorogalactosucrose by chromatography on silanized silica gel|
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    US20060247180A1|2005-04-29|2006-11-02|Bergey James L|Purgative composition and uses thereof|
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    US20070100139A1|2005-10-31|2007-05-03|Healthy Brands, Llc|Methods for chlorinating sucrose-6-ester|
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    AU2007220123A1|2006-02-28|2007-09-07|V.B. Medicare Pvt. Ltd.|Process for the production of a chlorinating reagent and its use in the preparation of chlorinated sugars|
    CN100418976C|2006-04-03|2008-09-17|广州科宏食品添加物有限公司|Process for preparing sucralose|
    JP2009542625A|2006-07-06|2009-12-03|アレムビック・リミテッド|Improved production of high purity sucralose|
    CN100567319C|2006-07-12|2009-12-09|上海迪赛诺维生素有限公司|A kind of crystallization method of Sucralose|
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    GB2474311B|2009-10-12|2012-10-17|Tate & Lyle Technology Ltd|Low temperature, single solvent process for the production of sucrose-6-ester|
    GB2474310B|2009-10-12|2012-02-29|Tate & Lyle Technology Ltd|Process for the production of sucrose-6-ester|
    CN102336786A|2011-11-01|2012-02-01|安徽万和制药有限公司|High-efficiency crystallization method of trichlorosucrose|
    CN102336787B|2011-11-01|2014-06-04|安徽万和制药有限公司|Method for efficiently synthesizing trichlorosucrose|
    CN102942599B|2012-11-28|2015-08-26|湖北益泰药业有限公司|A kind of method of purification of sucrose-6-ethyl ester|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    GB7943933|1979-12-20|
    GB8010629|1980-03-28|
    GB8011086|1980-04-02|
    GB8016668|1980-05-20|
    GB8036711|1980-11-14|LV920521A| LV5131A3|1979-12-20|1992-12-29|Saturation of 4,1 ', 6'-trichloro-4,1', 6'-trideoxygalactosaccharose|
    LTRP671A| LT2145B|1979-12-20|1993-06-22|4,1 ', 6'-TRICHLOR-4,1', 6'-TRIDESOCYLALACTOSACHAROSE RECEIVING BUDGET|
    MD94-0106A| MD30C2|1979-12-20|1994-03-16|The method of obtaining of 4,1',6' - trichloride - 4,1'6' - trideoxigalactsaxxharose|
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