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A method for preparing potassium tetrahydrofuran-3-trifluoroborate

A technology of potassium trifluoroborate and tetrahydrofuran, which is applied in the field of organic chemical synthesis, can solve problems such as high prices of transition metal catalysts and organic ligands, restrictions on the mass production of target products, and the impossibility of large-scale production. The effect of high efficiency and low product cost

Inactive Publication Date: 2019-11-08
成都安斯利生物医药有限公司
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AI Technical Summary

Problems solved by technology

[0008] This method uses tetrahydrofuran and bisboronic acid pinadate as raw materials, and transition metals as catalysts and organic ligands. At first, tetrahydrofuran-3-boronate is synthesized, and then combined with KHF 2 Reaction to prepare tetrahydrofuran-3-potassium trifluoroborate, although the raw materials tetrahydrofuran and bisboronic acid pinadate are cheap in this method, the price of transition metal catalyst and organic ligand is quite expensive, and there are no commercial products of these two raw materials , the prepared target product is also a gram-level product in the laboratory, and it is impossible to achieve scale-up production
[0009] The above two known preparation methods all have the disadvantages of expensive raw materials, not easy to obtain, and harsh reaction conditions, and cannot realize scale-up production, which limits the mass production of the target product

Method used

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  • A method for preparing potassium tetrahydrofuran-3-trifluoroborate
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  • A method for preparing potassium tetrahydrofuran-3-trifluoroborate

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Embodiment 1

[0027] In a 1L three-necked reaction flask, add D-α-pinene (50g, 0.37mol) and 200mL of anhydrous tetrahydrofuran. 0.17mol, 10M in dimethylsulfide), after the addition, the temperature was raised to room temperature, reacted for 4h, and a white solid was generated, then the reaction solution was cooled to -40°C, and 2,5-dihydrofuran (12g, 0.17mol) was slowly added dropwise After the addition was completed, after rising to room temperature, react for 12h, add anhydrous acetaldehyde (75g, 1.7mol), react at room temperature for 6h, remove excess anhydrous acetaldehyde under reduced pressure, and then add KHF 2 The saturated solution of (39.8g, 0.51mol) was reacted at room temperature for 6h, and the solvent was evaporated under reduced pressure with a rotary evaporator, then dried, the product was extracted with acetone, concentrated under reduced pressure, and ether was added to obtain 24.8g of a white solid, namely tetrahydrofuran-3 -Potassium trifluoroborate, yield 82%. 1H NMR...

Embodiment 2

[0029] In a 10L three-necked reaction flask, add D-α-pinene (2331.15g, 17.11mol) and 2L anhydrous tetrahydrofuran, under the protection of nitrogen, cool to 0°C, slowly add borane dimethyl sulfide complex (815mL , 8.15mol, 10M in dimethylsulfide), after the addition, the temperature was raised to room temperature and reacted for 4h to generate a white solid, then the reaction solution was cooled to -40°C, and 2,5-dihydrofuran (571g, 8.15mol ), after the addition was completed, after rising to room temperature, reacted for 12h, added anhydrous acetaldehyde (3690g, 81.5mol), reacted at room temperature for 6h, removed excess anhydrous acetaldehyde under reduced pressure, and then added KHF 2 The saturated solution of (1909g, 24.45mol) was reacted at room temperature for 6h, and the solvent was evaporated under reduced pressure by a rotary evaporator, then dried, and the product was extracted with acetone, concentrated under reduced pressure, and ether was added to obtain 1146g of...

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Abstract

The invention discloses a new method for preparing tetrahydrofuran-3-potassium trifluoroborate. The new method specifically comprises the following steps: preparing di-alpha-pinoborane by using dextro-alpha-pinene and a borane-dimethyl sulfide complex as raw materials, then reacting di-alpha-pinoborane with 2,5-dihydrofuran at room temperature, then using anhydrous acetaldehyde for reduction to generate dimethyl borate, without separating an intermediate, and subsequently reacting dimethyl borate with a saturated aqueous solution of KHF2 to generate the target product tetrahydrofuran-3-potassium trifluoroborate. The method has the obvious advantages that the reaction raw materials are easy to obtain; the reaction operation is simple; large-scale production is easy to achieve; the yield is high; the purity is good; the production cost is low.

Description

technical field [0001] The invention relates to a new method for synthesizing a pharmaceutical intermediate organic boric acid derivative, belonging to the field of organic chemical synthesis, in particular to a method for preparing potassium tetrahydrofuran-3-trifluoroborate. Background technique [0002] Organoboronic acid and its derivatives are an important class of pharmaceutical intermediates and organic chemical reagents, which are widely used in organic synthesis to form new C-C single bonds through Suzuki-Miyaura coupling reactions. Most organic boronic acids are stable at room temperature and can be stored for a long time, but some alkyl boronic acids and alkene or alkyne boronic acids are unstable at room temperature and are easy to deteriorate, so it is difficult to preserve this type of boronic acid. Certain difficulties, if this type of boric acid is converted into boric acid derivatives such as boric acid ester and potassium trifluoroborate, its properties are...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C07F5/02
CPCC07F5/025
Inventor 唐拥军莫珊刘玉琴
Owner 成都安斯利生物医药有限公司
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