CN101073779A - Quaternary-ammonium poly-L-leucine catalyst, its production and use - Google Patents
Quaternary-ammonium poly-L-leucine catalyst, its production and use Download PDFInfo
- Publication number
- CN101073779A CN101073779A CN 200710036543 CN200710036543A CN101073779A CN 101073779 A CN101073779 A CN 101073779A CN 200710036543 CN200710036543 CN 200710036543 CN 200710036543 A CN200710036543 A CN 200710036543A CN 101073779 A CN101073779 A CN 101073779A
- Authority
- CN
- China
- Prior art keywords
- catalyst
- leucine
- quaternary
- room temperature
- stirred
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Epoxy Compounds (AREA)
- Catalysts (AREA)
Abstract
The invention is concerned with the polyquaternium - L - leucine activator and the preparation and application. The activator is the connection of the quaternary ammonium with amido and poly - L - leucine. It is: the quaternary ammonium with amido leads the polymerization of L-Leu NCA to get the activator. The activator is fit for the asymmetry epoxy of alpha and beta- unsaturation ketone, the characteristics is: the using quantity of the activator is small, the reactive speed is quick, the recycle of the activator and the production is convenience, and the activator can cycle use many times.
Description
Technical field
The present invention relates to a kind of quaternary-ammonium poly-L-leucine catalyst and preparation thereof and application, application is meant this catalyst alkene asymmetric Epoxidation, exactly, is meant this catalyst α, the alpha, beta-unsaturated ketone asymmetric Epoxidation, the technical field of metal catalyst and preparation thereof and application.
Background technology
The optically active epoxy ketone compounds is the synthetic son of a class important biological compound, by reactions such as selective opening and functional group's conversions, can synthesize many valuable chipal compounds.α, the asymmetry catalysis epoxidation of alpha, beta-unsaturated ketone are one of most important reactions of such optically active epoxy thing of preparation.And in catalytic reaction, adopt the catalyst of organic molecule as asymmetric epoxidation reaction, have not containing metal, pollute less, advantages such as toxicity is little, good stability, reaction condition gentleness, to significant with the security and the chemical process greenization of synthetic drug.Juli á reported first polyamino acid in 1980 can the catalysis chalcone compounds asymmetric epoxidation reaction (Angrew.Chem.Int.Ed.Engl.1980,19,929), the Polyalanine enantioselectivity (ee%) of making catalyst reaction can reach 83%, yield 85%.These amino acid polymers are called as synzyme (syntheticenzyme) or synthase (synzyme).Polyaminoacid has the following advantages as the catalyst of asymmetric organic synthesis for native enzyme: be easy to get, inexpensive, easily from reactant mixture, separate, activity stabilized, product photochemistry purity height, be easy to recycling.After this because its potential theoretical research is worth and the application prospect in industrial synthesizing, and increasing researcher begins it is studied, a large amount of research work constantly are seen in report.The reaction of improved polyamino acid catalysis chalcone compounds can make almost Quantitative yield of substrate, and enantioselectivity ee% value is up to 95% (Tetrahedron Lett.2004,45,5069) simultaneously.Yet traditional polyaminoacid catalyst has at least 3 factors to restrict its application aspect industrialization: (1) catalyst amount is big, is about 200% of substrate weight; (2) reaction speed is very slow, generally needs several days time just can finish (Tetrahedron 1984,40,5207); (3) catalyst is gluey, brings very big difficulty to the recovery of practical operation and catalyst.Geller etc. have reported and have added quaternary ammonium salt as phase transfer catalyst in the alkene asymmetric epoxidation reaction system of poly-L-leucine catalysis, but fast reaction speed, reduce catalyst amount, but because catalyst still is gluey, product separates and the catalyst recovery problem does not still solve (Tetrahedron Lett.2004,45,5069).In order to address these problems, the inventor was once immobilized on silica gel with the scion grafting of poly-L-leucine covalency, make catalyst be Powdered, be convenient to reclaim, but the problem of catalyst amount big (be about substrate weight 400%) does not still solve, and catalyst enantioselectivity ee% value decline (Tetrahedron Lett., 2005 rapidly when recycling, 46,5665).
Summary of the invention
First technical problem that the present invention will solve is to release a kind of quaternary-ammonium poly-L-leucine catalyst.
For solving the problems of the technologies described above, the present invention adopts following technical scheme, it is characterized in that, described catalyst is formed by connecting by having amino quaternary ammonium salt and poly-L-leucine, has molecular structural formula as follows:
Wherein, R
1, R
2, R
3Be C
1-C
16Alkyl, substituted alkyl, alkoxyl, substituted alkoxy, substituted aryl or substituted heterocyclic radical, X
-Be anion F
-, Cl
-, Br
-, I
-, SO
4 2-, BF
4 -Or PF
6 -, n 〉=1, average chain length m=10~60.
Second technical problem that the present invention will solve provides a kind of preparation method of quaternary-ammonium poly-L-leucine catalyst.
For solving the problems of the technologies described above, the present invention adopts following technical scheme.Cause L-Leu NCA polymerization to have amino quaternary ammonium salt, make quaternary-ammonium poly-L-leucine catalyst, the chemical reaction skeleton symbol relevant with preparation is
Now describe technical scheme of the present invention in detail.
A kind of quaternary-ammonium poly-L-leucine alkene Preparation of catalysts method is characterized in that concrete operations: add 100~300g anhydrous tetrahydro furan among the L-Leu NCA of 7.8g, room temperature and nitrogen protection are stirred down, obtain settled solution; To the quaternary ammonium salt of described solution adding 1~6mmol, room temperature and nitrogen protection were stirred 72 hours down; Filter, the ether washing, oven dry, porphyrize get the powdery product quaternary-ammonium poly-L-leucine catalyst, yield 33%~91%, average chain length m=10~60 of product.
The 3rd technical problem that the present invention will solve is to release described quaternary-ammonium poly-L-leucine catalyst to be used for catalysis α, the method for the asymmetric epoxidation reaction of alpha, beta-unsaturated ketone.
For solving above-mentioned technical problem, the present invention adopts following technical scheme:
Described catalyst is used for α, the method of the asymmetric epoxidation reaction of alpha, beta-unsaturated ketone, it is characterized in that, with the quaternary ammonium salt poly-L-leucine catalyst of 0.1~2mmol, the α of 10mmol, beta-unsaturated ketone compound and 80g dimethoxy-ethane drop into 80g water, stir 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 5 minutes~12 hours under the room temperature, it is complete that TLC tracks to raw material reaction; Suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and obtains epoxidation product, and yield is 90%~99%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was up to 99.4% to isopropyl alcohol, and described catalyst can be recycled.
The catalyst that reclaims can repeatedly recycle, and recycles the catalyst after seven times, and its activity and enantioselectivity ee% value still remain unchanged.
Compare with background technology, the present invention has the following advantages:
1. catalyst amount reduces significantly, only is α, the 1mol% of alpha, beta-unsaturated ketone consumption.
2. reaction speed is fast, and minimum needs a few minutes, can make α, the complete epoxidation of alpha, beta-unsaturated ketone.
3. catalyst is Powdered, and product separation and catalyst recovery are easy.
4. reaction conversion ratio and enantioselectivity ee% value are high, and reaction conversion ratio is up to 99%, and enantioselectivity ee% value is up to 99.4%.
The specific embodiment
Embodiment 1: cause L-Leu NCA polymerization, average chain length m=10 with chlorination N-aminopropyl-N-methylimidazole salt ([Pamim] Cl).
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.264g[Pamin to described solution] Cl, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.4g white powder product [Pamim] Cl-PLL10 catalyst, yield 73%.[Pamim] Cl-PLL10 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=10 of product.
Embodiment 2: cause L-Leu NCA polymerization, average chain length m=30 with chlorination N-aminopropyl-N-methylimidazole salt ([Pamim] Cl).
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.088g[Pamin to described solution] Cl, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.2g white powder product [Pamim] Cl-PLL30 catalyst, yield 63%.[Pamim] Cl-PLL30 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=30 of product.
Embodiment 3: cause L-Leu NCA polymerization, average chain length m=60 with chlorination N-aminopropyl-N-methylimidazole salt ([Pamim] Cl).
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.044g[Pamin to described solution] Cl, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.1g white powder product [Pamim] Cl-PLL60 catalyst, yield 57%.[Pamim] Cl-PLL60 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=60 of product.
Embodiment 4: cause L-Leu NCA polymerization, average chain length m=30 with bromination N-aminopropyl-N-methylimidazole salt ([Pamim] Br).
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.22g[Pamin to described solution] Br, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.7g white powder product [Pamin] Br-PLL30 catalyst, yield 91%.[Pamin] Br-PLL30 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=30 of product.
Embodiment 5: with N-aminopropyl-N-methylimidazole hexafluorophosphate ([Pamim] PF
6) initiation L-Leu NCA polymerization, average chain length m=30.
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.14g[Pamim to described solution] PF
6, room temperature and nitrogen protection were stirred 11 days down, and filtration, ether washing, oven dry, porphyrize get 0.84g yellow powder powder product [Pamim] PF
6-PLL30 catalyst, yield 33%.[Pamim] PF
6-PLL30 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=30 of product.
Embodiment 6: with N-aminopropyl-N-methyl imidazolium tetrafluoroborate ([Pamim] BF
4) initiation L-Leu NCA polymerization, average chain length m=30.
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.11g[Pamim to described solution] BF
4, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.14g white powder product [Pamim] BF
4-PLL30 catalyst, yield 43%.[Pamim] BF
4-PLL30 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=30 of product.
Embodiment 7: cause L-LeuNCA polymerization, average chain length m=30 with sal-ammoniac butyl tributyl ammonium ([TBAA] Cl).
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.15g[TBAA to described solution] Cl, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.27g white powder product [TBAA] Cl-PLL30 catalyst, yield 65%.[TBAA] Cl-PLL30 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=30 of product.
Embodiment 8: cause L-Leu NCA polymerization, average chain length m=30 with zephiran chloride diethyl amino propyl ammonium ([BDEA] Cl).
Add 2.5g L-Leu NCA in the reaction bulb, the 50g anhydrous tetrahydro furan, room temperature and nitrogen protection are stirred down, obtain settled solution.Add 0.13g[BDEA to described solution] Cl, room temperature and nitrogen protection were stirred 72 hours down, and filtration, ether washing, oven dry, porphyrize get 1.35g white powder product [BDEA] Cl-PLL30 catalyst, yield 70%.[BDEA] Cl-PLL30 catalyst is one of quaternary-ammonium poly-L-leucine catalyst, the average chain length m=30 of product.
Embodiment 9:[Pamim] Br-PLL30 catalyst chalcone asymmetric Epoxidation.
[Pamim] Br-PLL30 catalyst of 0.1~2mmol, chalcone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 15 minutes under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.22g epoxidation product, and yield is 98%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 94% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 10: the application of catalyst [Pamim] Br-PLL30 in the chalcone asymmetric epoxidation reaction.
[Pamim] Br-PLL30 catalyst of 2mmol, chalcone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 1 hour under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.22g epoxidation product, and yield is 98%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 96% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 11: the application of catalyst [Pamim] Br-PLL30 in (E)-1-(4-chlorphenyl)-3-phenylpropyl alcohol-2-alkene-1-ketone asymmetric epoxidation reaction.
[Pamim] Br-PLL30 catalyst of 2mmol, (E)-1-(4-chlorphenyl)-3-phenylpropyl alcohol-2-alkene-1-ketone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 30 minutes under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.27g epoxidation product, and yield is 99%; Utilize chiral column (chiralpakAD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 99.4% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 12: the application of catalyst [Pamim] Br-PLL30 in (E)-1-(4-methoxyphenyl)-3-phenylpropyl alcohol-2-alkene-1-ketone asymmetric epoxidation reaction.
[Pamim] Br-PLL30 catalyst of 2mmol, (E)-1-(4-methoxyphenyl)-3-phenylpropyl alcohol-2-alkene-1-ketone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 10 minutes under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.25g epoxidation product, and yield is 94%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 96% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 13: the application of catalyst [Pamim] Br-PLL30 in (E)-3-(4-methoxyphenyl)-1-phenylpropyl alcohol-2-alkene-1-ketone asymmetric epoxidation reaction.
[Pamim] Br-PLL30 catalyst of 2mmol, (E)-3-(4-methoxyphenyl)-1-phenylpropyl alcohol-2-alkene-1-ketone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 30 minutes under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.25g epoxidation product, and yield is 94%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 95% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 14: the application of catalyst [Pamim] Cl-PLL30 in the chalcone asymmetric epoxidation reaction.
[Pamim] Cl-PLL30 catalyst of 0.1mmol, chalcone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 12 hours under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.23g epoxidation product, and yield is 94%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 96% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 15: the application of catalyst [Pamim] Cl-PLL30 in the chalcone asymmetric epoxidation reaction.
[Pamim] Cl-PLL30 catalyst of 0.5mmol, chalcone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 12 hours under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.24g epoxidation product, and yield is 99%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 99.4% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 16: the application of catalyst [Pamim] Cl-PLL30 in the chalcone asymmetric epoxidation reaction.
[Pamim] Cl-PLL30 catalyst of 1mmol, chalcone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 12 hours under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.24g epoxidation product, and yield is 99%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 99.4% to isopropyl alcohol.Described catalyst can be recycled.
Embodiment 17: the application of catalyst [Pamim] Cl-PLL30 in the chalcone asymmetric epoxidation reaction.
[Pamim] Cl-PLL30 catalyst of 2mmol, chalcone and the 80g dimethoxy-ethane of 10mmol are dropped into 80g water, stirred 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 15 minutes under the room temperature, suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and gets the 0.22g epoxidation product, and yield is 93%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was 93.6% to isopropyl alcohol.Described catalyst can be recycled.
Catalyst of the present invention is specially adapted to α, the asymmetric Epoxidation of alpha, beta-unsaturated ketone, have that catalyst amount is few, reaction speed is fast, product and catalyst recovery is convenient, catalyst can repeatedly recycle, yield and the high characteristics of enantioselectivity ee% value, has better industrial application prospect.
Claims (3)
1, a kind of quaternary-ammonium poly-L-leucine catalyst is characterized in that, described catalyst is formed by connecting by having amino quaternary ammonium salt and poly-L-leucine, has molecular structural formula as follows:
Wherein, R
1, R
2, R
3Be C
1-C
16Alkyl, substituted alkyl, alkoxyl, substituted alkoxy, substituted aryl or substituted heterocyclic radical, X
-Be anion F
-, Cl
-, Br
-, I
-, SO
4 2-, BF
4 -Or PF
6 -, n 〉=1, average chain length m=10~60.
2, the preparation method of the described quaternary-ammonium poly-L-leucine catalyst of a kind of claim 1 is characterized in that concrete operations: add 100~300g anhydrous tetrahydro furan among the L-Leu NCA of 7.8g, room temperature and nitrogen protection are stirred down, obtain settled solution; To the quaternary ammonium salt of described solution adding 1~6mmol, room temperature and nitrogen protection were stirred 72 hours down; Filter, the ether washing, oven dry, porphyrize get the powdery product quaternary-ammonium poly-L-leucine catalyst, yield 33%~91%, average chain length m=10~60 of product.
3, the described quaternary-ammonium poly-L-leucine catalyst of claim 1 is used for α, the method of the asymmetric epoxidation reaction of alpha, beta-unsaturated ketone, it is characterized in that, with the quaternary ammonium salt poly-L-leucine catalyst of 0.1~2mmol, the α of 10mmol, beta-unsaturated ketone compound and 80g dimethoxy-ethane drop into 80g water, stir 30 minutes under the room temperature; Add the 2.4g SODIUM PERCARBONATE, stirred 5 minutes~12 hours under the room temperature, it is complete that TLC tracks to raw material reaction; Suction filtration, with the abundant washing leaching cake of ethyl acetate, filtrate merges; With the abundant washing leaching cake of deionized water, reclaim catalyst; Organic facies saturated common salt water washing, anhydrous sodium sulfate drying; Decompression is solvent evaporated down, and silica gel column chromatography separates, and obtains epoxidation product, and yield is 90%~99%; Utilize chiral column (chiralpak AD chiral phase) to carry out HPLC and analyze, flowing is n-hexane mutually: (90: 1, v: v), the enantioselectivity ee% value that obtains epoxides was up to 99.4% to isopropyl alcohol, and described catalyst can be recycled.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2007100365439A CN101073779B (en) | 2007-01-17 | 2007-01-17 | Quaternary-ammonium poly-L-leucine catalyst, its production and use |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2007100365439A CN101073779B (en) | 2007-01-17 | 2007-01-17 | Quaternary-ammonium poly-L-leucine catalyst, its production and use |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN101073779A true CN101073779A (en) | 2007-11-21 |
| CN101073779B CN101073779B (en) | 2012-02-08 |
Family
ID=38975140
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2007100365439A Expired - Fee Related CN101073779B (en) | 2007-01-17 | 2007-01-17 | Quaternary-ammonium poly-L-leucine catalyst, its production and use |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN101073779B (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107552090A (en) * | 2017-09-12 | 2018-01-09 | 石家庄学院 | Immobilized quinine catalyst of a kind of pentaerythrite and its preparation method and application |
| CN107652274A (en) * | 2017-09-12 | 2018-02-02 | 石家庄学院 | A kind of pentaerythrite is immobilized(S)Or(R)Diphenylprolinol and preparation method and application |
| CN107715909A (en) * | 2017-09-13 | 2018-02-23 | 石家庄学院 | A kind of Proline-Catalyzed agent of pentaerythrite support and preparation method and application |
-
2007
- 2007-01-17 CN CN2007100365439A patent/CN101073779B/en not_active Expired - Fee Related
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107552090A (en) * | 2017-09-12 | 2018-01-09 | 石家庄学院 | Immobilized quinine catalyst of a kind of pentaerythrite and its preparation method and application |
| CN107652274A (en) * | 2017-09-12 | 2018-02-02 | 石家庄学院 | A kind of pentaerythrite is immobilized(S)Or(R)Diphenylprolinol and preparation method and application |
| CN107552090B (en) * | 2017-09-12 | 2019-12-03 | 石家庄学院 | A kind of quinine catalyst and its preparation method and application that pentaerythrite is immobilized |
| CN107652274B (en) * | 2017-09-12 | 2020-07-21 | 石家庄学院 | Pentaerythritol immobilized (S) or (R) -diphenyl prolinol, and preparation method and application thereof |
| CN107715909A (en) * | 2017-09-13 | 2018-02-23 | 石家庄学院 | A kind of Proline-Catalyzed agent of pentaerythrite support and preparation method and application |
| CN107715909B (en) * | 2017-09-13 | 2020-02-14 | 石家庄学院 | Pentaerythritol-supported proline catalyst and preparation method and application thereof |
Also Published As
| Publication number | Publication date |
|---|---|
| CN101073779B (en) | 2012-02-08 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN1212321C (en) | Industrial synthetising strontium salt and method of its hydrate | |
| CN101050205A (en) | Compound containing cation radical of piperazidine, synthetic method, and application | |
| CN101073779A (en) | Quaternary-ammonium poly-L-leucine catalyst, its production and use | |
| CN1847201A (en) | Amino group-containing chiral ionic liquid and its prepn process and application | |
| CN111848322B (en) | Axial chiral oxindole-substituted styrene compound and resolution method and application thereof | |
| CN116082111B (en) | Method for synthesizing 1, 2-triarylethane | |
| CN106831583B (en) | N, N- dialkyl group substituted pyrazolecarboxylic ionic liquid, preparation method and its method for catalyzing and synthesizing propene carbonate | |
| CN1369489A (en) | Process for reaction of CO2 on heterocyclic compound under co-catalysis of transistion metal complex and organic alkali | |
| CN101050195A (en) | Compound of containing cation radical of L - proline, preparation method, and application | |
| CN1834093A (en) | Synthetic process of chiral 2-amido-1-(6-fluorine-3,4-dihydrobenzopyranyl) alCohol | |
| CN109651344B (en) | Benzofuran triarylmethane compounds and green catalytic synthesis method thereof | |
| CN1197836C (en) | Method for asymmetrically synthesizing secondary propiolic alcohol compound | |
| CN108554456B (en) | Application of rare earth imidazolium salt compound as catalyst | |
| CN115232086B (en) | Preparation method of 4-benzyl-2 (3H) -oxazolone | |
| CN1955154A (en) | Preparation method of alkoxyl mandelic acid | |
| CN114989072B (en) | Method for asymmetric catalytic synthesis of chiral 1, 4-dihydropyridine compound and application thereof | |
| CN115350724B (en) | Preparation method of difunctional polyion liquid catalyst for synthesizing oxazolidinone | |
| CN1599644A (en) | Method for isomerizing allyl alcohols | |
| CN113620761B (en) | Preparation method for synthesizing aryl aldehyde compound by reducing aryl secondary amide or aryl secondary amide derivative with phenylsilane | |
| CN102358715B (en) | Method for synthesizing aromatic nitrile with arylboronic acid | |
| CN1416954A (en) | Phosphinidene amide and transition metal complex catalyst and its synthesis process and application in C-C and C-N bond forming reaction | |
| CN111116483B (en) | 2-imidazolyl imidazole compound and preparation method thereof | |
| CN1680038A (en) | Ionic liquid of 1,3-diester-base imidazole and preparation thereof | |
| CN1206217C (en) | Method for synthesizing aziridine compound | |
| CN101041636A (en) | Method for synthesizing heterocyclic ketenes amine condensation derivatives |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| ASS | Succession or assignment of patent right |
Owner name: ZHEJIANG XIANJU JUNYE PHARMACEUTICAL CO., LTD. Free format text: FORMER OWNER: EAST CHINA NORMAL UNIVERSITY Effective date: 20120418 |
|
| C41 | Transfer of patent application or patent right or utility model | ||
| COR | Change of bibliographic data |
Free format text: CORRECT: ADDRESS; FROM: 200062 PUTUO, SHANGHAI TO: 317300 TAIZHOU, ZHEJIANG PROVINCE |
|
| TR01 | Transfer of patent right |
Effective date of registration: 20120418 Address after: 317300, Zhejiang County, Xianju Province Chengguan River Bridge Head Patentee after: Zhejiang Xianju Junye Pharmaceutical Co., Ltd. Address before: 200062 Zhongshan North Road, Shanghai, No. 3663 Patentee before: East China Normal University |
|
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120208 Termination date: 20130117 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |