Method and device for continuously synthesizing cyclopropane compounds

A compound, the technology of cyclopropane, applied in the field of continuous synthesis of cyclopropane compounds, can solve the problems of continuous reaction equipment chain length diazomethane solution pipeline transfer, high cost of permeable membrane manufacturing, affecting catalytic activity, etc., to avoid pipeline Transfer risks, improve production safety, and realize the effect of automatic control

Pending Publication Date: 2019-12-17
ASYMCHEM LAB TIANJIN
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Both of these studies rely on the controlled feeding of the diazomethane precursor to realize the simultaneous formation of diazomethane and the cyclopropanation of olefins in a two-phase system. If the feeding rate of the diazomethane precursor is too fast, the diazomethane unit The amount of production is large within a period of time, and the catalyst catalyzes the decomposition of diazomethane at an accelerated rate to generate by-products such as ethylene. If the feeding rate is too slow, it may cause the precipitation of the catalyst and affect the catalytic activity. These all increase the risk of operating the diazomethane precursor
[0006] In summary, the prior art mainly has the following disadvantages: 1) Although the continuous preparation of the diazomethane precursor and the continuous preparation and application of the diazomethane solution can be realized, the separation of the diazomethane precursor and the diazomethane can be greatly reduced And the risk of use, but the continuous reaction equipment chain is long and involves the pipeline transfer risk of diazomethane solution; 2) prepare diazomethane by continuous reaction, though permeable membrane separation of diazomethane can realize the separation of diazomethane and substrate In-situ reaction, but the manufacturing cost of the permeable membrane is high, the production capacity is small, and large-scale application cannot be realized in a short time; 3) The batch one-pot method realizes the simultaneous generation of diazomethane and olefin cyclopropanation, but increases Risks of handling diazomethane precursors

Method used

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  • Method and device for continuously synthesizing cyclopropane compounds
  • Method and device for continuously synthesizing cyclopropane compounds
  • Method and device for continuously synthesizing cyclopropane compounds

Examples

Experimental program
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Embodiment 1

[0040] Olefin compounds:

[0041] Continuous reaction: See Table 1 for the feed pump speed and reaction parameters, and the schematic diagram of the reaction process is shown in figure 1 shown.

[0042] (1) Prepare the solution: add 370g of purified water and 82.5g of N-methylurea to a 2L Erlenmeyer flask, stir until fully dissolved, then slowly add 190g of concentrated hydrochloric acid (mass fraction: 36%), stir evenly and set aside (methylurea urea / hydrochloric acid solution). Add 370g of purified water into the 1L Erlenmeyer flask, add 130g of solid sodium nitrite, stir until fully dissolved (sodium nitrite aqueous solution), and set aside. Add 250ml 2-methyltetrahydrofuran, 50g olefin compound (20.38mmol), and 0.4g palladium acetate to a 1L conical flask, stir until completely dissolved, and set aside (olefin / catalyst solution). Add 600g purified water in 1L Erlenmeyer flask, add 210g potassium hydroxide in batches, stir until fully dissolved, stand-by (potassium hyd...

Embodiment 2

[0052] The difference from Example 1 is: the temperature of the first reactor is controlled at 30-35°C. Typical sample: olefin feedstock, 18.8% cyclopropane product, 65.2%; yield 63%.

Embodiment 3

[0054] The difference with Example 1 is: the residence time of the first reactor is 5min. Typical sample: olefin feedstock, 8.2% cyclopropane product, 75.2%; yield 73%.

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Abstract

The invention discloses a method and a device for continuously synthesizing cyclopropane compounds. The method comprises the following steps of: continuously carrying out a synthesis reaction of a diazomethane precursor in a first reactor, flowing a reaction product of the first reactor into a separator for layering, overflowing an organic phase obtained by layering into a second reactor, continuously consuming the diazomethane precursor in the second reactor to prepare diazomethane, and carrying out an electron-rich mono-olefin cyclopropanation reaction in situ to obtain the cyclopropane compounds. The method can realize automatic control, reduce the transfer of high-risk materials, avoid the risk of pipeline transfer of a diazomethane solution, and effectively improve the production safety, also has simple equipment, can save equipment investment, and can safely and quantitatively realize simultaneous diazomethane generation and olefin cyclopropanation reaction.

Description

technical field [0001] The invention relates to the field of medicine and chemical industry, in particular to a method and device for continuous synthesis of cyclopropane compounds. Background technique [0002] Cyclopropane compounds can participate in the construction of various heterocyclic compound skeletons due to the tension of the three-membered ring and the unique double bond characteristics. Many natural products and active ingredients are cyclopropane compounds or derived from cyclopropane compounds. It has important application value in the field of medicine and chemical industry. Synthesis of cyclopropane compounds by cyclopropanation of alkenes is a common way. [0003] The Simmons-Smith reaction is a widely used reaction in the cyclopropanation reaction of olefins. Diethyl zinc or zinc-copper alkene, diiodomethane (or methylene bromide) produces carbene intermediates and reacts with olefins to generate cyclopropanes compound. This type of reaction is easy to...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07D209/52
CPCC07D209/52
Inventor 洪浩卢江平丰惜春孙兴芳张锋
Owner ASYMCHEM LAB TIANJIN
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