A kind of purification process of fluoroethylene carbonate
Technical field
The invention belongs to the preparing technical field of fluoroethylene carbonate.
Background technology
Fluoroethylene carbonate, fusing point 17-19 ℃, 200 ℃ of boiling points, structural formula is:
When fluoroethylene carbonate uses as the lithium-ion battery electrolytes additive, require its content more than the 99.5wt% and acidity below 0.005%.At present, industrial distillation method of purification commonly used can't be met the fluoroethylene carbonate that the lithium-ion electrolyte additive requires.
Summary of the invention
Technical problem to be solved by this invention provides a kind of purification process of fluoroethylene carbonate, and this method refining effect is good.
For solving above technical problem, the present invention takes following technical scheme:
A kind of purification process of fluoroethylene carbonate, this method comprise makes fluoroethylene carbonate in the mixed solvent of toluene and normal hexane, carries out the step of recrystallization under-30-0 ℃, and in the mixed solvent, the weight ratio of toluene and normal hexane is 1: 1-10.
In the mixed solvent, the weight ratio of methane and normal hexane is preferably 1: 1-4.Behind the recrystallization, remove by filter mixed solvent, can get the crystal of fluoroethylene carbonate, during the temperature of this crystal more than the fusing point of fluoroethylene carbonate, change into liquid state.At this moment, but the fluoroethylene carbonate of liquid towards further purify, preferably, be that fluoroethylene carbonate is carried out underpressure distillation and collects the fluoroethylene carbonate cut, wherein, underpressure distillation is preferably carried out under vacuum tightness 500-1100Pa.
The present invention also will provide a kind of preparation method of fluoroethylene carbonate simultaneously, and this method is raw material with the ethylene carbonate, comprises the steps:
(1), make ethylene carbonate and simple substance fluoride at temperature 30-50 ℃, there is reaction down in nitrogen, obtains the crude product of fluoroethylene carbonate;
(2), adopt above-mentioned purification process that crude product is carried out purifying.
Fluoroethylene carbonate of the present invention also can prepare by the following method: with the chlorocarbonic acid ethyl is raw material, at first makes chlorocarbonic acid ethyl and Sodium Fluoride in the presence of methylcarbonate and the Tetrabutyl amonium bromide, in reacting under 60-70 ℃ and remove methylcarbonate to obtain the crude product of fluoroethylene carbonate after reaction finishing; Adopt above-mentioned purification process that the gained crude product is carried out purifying then.
Because the technique scheme utilization, the present invention compared with prior art has following advantage:
Fluoroethylene carbonate after purification process of the present invention is purified, its purity and acidity can satisfy the requirement of lithium-ion electrolyte additive; In addition, purification process of the present invention is simple to operate.
Embodiment
The present invention is further detailed explanation below in conjunction with specific embodiment, but be not limited to these embodiment.
Embodiment 1
According to the preparation method of the fluoroethylene carbonate of present embodiment, detailed process is as follows:
In 2000ml stainless steel pressure container, add 880 gram ethylene carbonates (content is 99wt%), load onto the ultraviolet lamp of 5W, connect stainless steel airway and device for absorbing tail gas, be warmed up to 40 ℃, feeding 660g volume ratio is 1: 1 a delivery of fluorine/nitrogen mixed gas, and gas feeds and finishes, obtain the crude product of 1011g fluorinated ethylene carbonate, wherein, fluorinated ethylene carbonate content is 52.30wt%, and the acidity of crude product is 0.23%.
Embodiment 2
According to the preparation method of the fluoroethylene carbonate of present embodiment, detailed process is as follows:
In the four-hole boiling flask of 5000ml, configuration is stirred, condenser, add Sodium Fluoride, 3000ml methylcarbonate and the 5 gram Tetrabutyl amonium bromides of 1680g, stir, be warming up to 60 ℃, splash into the 1225g methylcarbonate, reaction is finished, and methylcarbonate is removed in underpressure distillation, obtains the crude product of 980g fluorinated ethylene carbonate, wherein the content of fluorinated ethylene carbonate is 75.62wt%, and the acidity of crude product is 1.3%.
Embodiment 3
According to following unified method, make 50g embodiment 1 gained fluoroethylene carbonate crude product in the mixed solvent of the toluene of different ratios and normal hexane and under the temperature-10 ℃, carry out recrystallization, underpressure distillation under vacuum tightness 665Pa-1064Pa then, the fluoroethylene carbonate cut of collecting 84-85 ℃ is as product, and the purity of the ratio of mixed solvent, consumption and product and acidity value are specifically seen the table 1 of Instructions Page 3.
Table 1
Toluene (g) |
Normal hexane (g) |
Product (g) |
Product purity (%) |
Product acidity (%) |
25 |
25 |
12 |
99.91 |
0.0040 |
50 |
50 |
8 |
99.96 |
0.0036 |
75 |
75 |
5 |
99.95 |
0.0030 |
100 |
100 |
2 |
99.99 |
0.0028 |
33 |
66 |
14 |
99.97 |
0.0025 |
25 |
75 |
10 |
99.93 |
0.0045 |
20 |
80 |
8 |
99.94 |
0.0043 |
Embodiment 4
According to following unified method, make 50g embodiment 2 gained fluoroethylene carbonate crude products in the mixed solvent of the toluene of different ratios and normal hexane and under 0 ℃ of the temperature, carry out recrystallization, underpressure distillation under vacuum tightness 665Pa-1064Pa then, the fluoroethylene carbonate cut of collecting 84-85 ℃ is as product, and the purity of the ratio of mixed solvent, consumption and product and acidity value specifically see Table 2.
Toluene (g) |
Normal hexane (g) |
Product (g) |
Product purity (%) |
Product acidity (%) |
25 |
?25 |
?24 |
?99.92 |
?0.0048 |
50 |
?50 |
?20 |
?99.93 |
?0.0040 |
75 |
?75 |
?6 |
?99.94 |
?0.0042 |
100 |
?100 |
?5 |
?99.94 |
?0.0038 |
33 |
?66 |
?27 |
?99.95 |
?0.0036 |
25 |
?75 |
?20 |
?99.94 |
?0.0040 |
20 |
?80 |
?15 |
?99.94 |
?0.0042 |
From table 1 and table 2 as seen, purification process refining effect of the present invention is good, and in the product after it is purified, fluoroethylene carbonate purity and acidity all can satisfy the requirement of lithium-ion electrolyte additive.
Above-described only is preferred implementation of the present invention.Should be understood that; for the person of ordinary skill of the art; under the prerequisite that does not break away from patent principle of the present invention; can also make some distortion and improvement; for example, according to the general knowledge of this area, in order further to improve the effect of purifying; described re-crystallization step can be carried out once or repeatedly, these also should be considered as belonging to protection scope of the present invention.