Preparation method of difluorosulfimide salt

A technology of difluorosulfonimide salt and difluorosulfonimide, which is applied in the field of preparation of electrolyte electrolyte difluorosulfonimide salt, can solve the problems of cumbersome process steps, difficult separation, long reaction time, etc. Achieve the effects of simple process route, reduced usage, and low production cost

Active Publication Date: 2014-10-08
ZHANGJIAGANG HICOMER CHEM CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There is following shortcoming in said method: (1) Potassium fluoride and dichlorosulfonimide synthesize difluorosulfonimide potassium in organic solvent, and contain one chloro one fluorosulfonimide, fluorosulfonimide in the product Impurities such as amides are difficult to separate and the yield is low; (2) the reaction time is long and it is difficult to obtain solid salt; React with a metal base or salt to give the corresponding difluorosulfonimide salt
AsF used in this route 3 It is a toxic reagent, which seriously pollutes the environment and cannot be prepared on a large scale
Using SbF 3 During fluorination, the by-products are difficult to separate. Zhou Zhibin and others have optimized this type of process, and proposed that the corresponding potassium salt of bisfluorosulfonyl imide can be prepared by directly adding potassium carbonate without separating the intermediate product. Although this route is be

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] (1) Add 64.2g (0.3mol) of dichlorosulfonimide and 27g (0.3mol) of dimethyl carbonate into a three-necked flask with stirring, thermometer, condenser and tail gas absorption device, and add three Ethylamine trihydrofluoride 31.6g (0.2mol), a small amount of acid gas emerging from the reaction was absorbed with lye, the dropwise addition was completed and kept for 4 hours, and dimethyl carbonate was distilled off to obtain difluorosulfonimide triethyl Amine ionic liquid; (2) the obtained difluorosulfonimide triethylamine ionic liquid is added with a mass concentration of 5% potassium hydroxide aqueous solution 336g (0.3mol), and stirred at room temperature for 4 hours to obtain an aqueous solution containing potassium difluorosulfonimide , distilled and dried to obtain potassium difluorosulfonimide, and then recrystallized using dimethyl carbonate to obtain 215.2 g of high-purity potassium difluorosulfonimide, with a yield of 98.26%.

Embodiment 2

[0019] (1) Add 21.4g (0.1mol) of dichlorosulfonimide and 12.3g (0.3mol) of acetonitrile into a three-necked flask with stirring, thermometer, condenser and tail gas absorption device, and add pyridine 4 hydrogen dropwise at a temperature of 50°C. Fluorate 7.95g (0.05mol), a small amount of acid gas emerging from the reaction is absorbed with lye, the dropwise addition is completed and kept for 2 hours, acetonitrile is distilled off to obtain difluorosulfonimide pyridine ionic liquid; (2) the obtained difluorosulfonimide Add 20 g (0.1 mol) of 20% sodium hydroxide aqueous solution to the sulfonimide pyridine ionic liquid, stir at room temperature for 2 hours to obtain an aqueous solution containing sodium difluorosulfonimide, distill and dry to obtain difluorosulfonimide Sodium, and then recrystallized using acetonitrile to obtain 200.1 g of high-purity sodium difluorosulfonyl imide, with a yield of 98.57%.

Embodiment 3

[0021] (1) In a three-necked flask equipped with stirring, thermometer, condenser and tail gas absorption device, add 21.4g (0.1mol) of dichlorosulfonimide and 71g (1mol) of tetrahydrofuran, and add 2-ethyl- 4-Methylimidazole 3.5 Hydrofluoride 10.3g (0.057mol), a small amount of acid gas emerging from the reaction was absorbed with lye, the dropwise addition was completed and kept for 3 hours, tetrahydrofuran was distilled off to obtain difluorosulfonimide 2- Ethyl-4-methylimidazolium ionic liquid; (2) the obtained difluorosulfonimide 2-ethyl-4-methylimidazolium ionic liquid is added with a mass concentration of 4.8g (0.1mol) of 50% lithium hydroxide aqueous solution, and the Stir for 3 hours to obtain an aqueous solution containing lithium difluorosulfonyl imide, distill and dry to obtain lithium difluorosulfonyl imide, and then use tetrahydrofuran to recrystallize to obtain 184.7 g of high-purity lithium difluorosulfonyl imide. The yield is 98.77%.

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Abstract

The invention discloses a preparation method of difluorosulfimide salt. The preparation method comprises the following steps: (1) adding dichlorosulfimide and a nitrogen-containing hydrogen fluoride complex which are used as reaction raw materials into an organic solvent for reaction at 0-100 DEG C, and after reaction, distilling to remove the organic solvent to obtain a difluorosulfimide and nitrogen-containing ion compound; (2) adding the ion compound obtained in the step (1) into a water solution of metal alkali or salt, neutralizing until the solution is neutral, distilling, drying, re-crystallizing by using the organic solvent, and purifying to obtain difluorosulfimide salt. According to the preparation method, the nitrogen-containing hydrogen fluoride complex is adopted as a fluorating agent, so that the whole reaction is carried out in a homogeneous system, the fluorating reaction is relatively safe, the efficiency is relatively high, and the product yield is more than 98%; a process route is simple, the yield is high, and the production cost is relatively low.

Description

technical field [0001] The invention relates to a method for preparing an electrolyte electrolyte difluorosulfonimide salt. Background technique [0002] Difluorosulfonimide salts are mainly used in lithium ion electrolytes of lithium batteries. Difluorosulfonimide salts can be used as electrolyte additives for lithium ion batteries to improve the cycle performance of lithium ion batteries, and can also be used as electrolytes for primary batteries. ; It can also be used as a polymerization catalyst, and can also be used as an antistatic agent in the industrial field. [0003] Now studies have shown that difluorosulfonyl imide salts can be used in the electrolyte of rechargeable lithium batteries, which can effectively improve the conductivity, and PC can form a stable SEI film on the surface of graphite negative electrodes, making a contribution to solving the problem of low-temperature use of batteries . with LiPF 6 Compared with it, it is superior in many aspects such ...

Claims

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Application Information

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IPC IPC(8): C01B21/096
Inventor 刘冬许国荣庞靖李苑庞宝华
Owner ZHANGJIAGANG HICOMER CHEM CO LTD
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