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The shortcomings of lithium battery electrolyte

Dec 19, 2018   Pageview:1132

The main electrolytes used in lithium batteries are lithium perchlorate and lithium hexafluorophosphate. However, batteries made of lithium perchlorate have a poor temperature effect and are in danger of explosion. They have been banned in Japan and the United States. The battery made of fluorine-containing lithium salt has good performance, no explosion hazard, and strong applicability, especially the battery made of lithium hexafluorophosphate. In addition to the above advantages, the disposal work of the waste battery in the future is relatively simple and ecologically friendly. The market prospects for this type of electrolyte are very broad.

 

Lithium battery main component of electrolyte

 

1 ethylene carbonate: Molecular formula: C3H4O3

 

clear colorless liquid ( "35 ), as a crystalline solid at room temperature. Boiling point: 248 ° C / 760 mmHg, 243-244 ° C / 740 mmHg; flash point: 160 ° C; density: 1.3218; refractive index: 1.4158 (50 ° C); melting point: 35-38 ° C; This product is polyacrylonitrile, polyvinyl chloride Good solvent. It can be used as a spinning liquid on textiles; it can also be used directly as a solvent for removing acid gas and an additive for concrete; it can be used as a pharmaceutical component and raw material in medicine; it can also be used as a plastic foaming agent and synthetic lubricating oil. Stabilizer; in the battery industry, can be used as an excellent solvent for lithium battery electrolyte

 

2. Propylene carbonate Molecular formula: C4H6O3

 

Colorless and odorless, or light yellow transparent liquid, soluble in water and carbon tetrachloride, with ether, acetone, benzene and other miscible. It is an excellent polar solvent. This product is mainly used in polymer processing, gas separation process and electrochemistry. In particular, it is used to absorb carbon dioxide from natural gas and petrochemical plants, and can also be used as a plasticizer, a spinning solvent, an olefin and an aromatic hydrocarbon extractant.

 

Toxicological data: No animal poisoning was found in oral or skin contact in animal experiments. Rat oral LD50=2,9000mg/kg.

 

This product should be stored in a cool, ventilated, dry place, away from fire, according to the general low-toxic chemicals regulations storage and transportation.

 

What is the danger of lithium battery electrolyte on the human body

 

3. Methyl carbonate formula: C5H10O3

 

colorless liquid, slightly odor; vapor pressure 1.33kPa / 23.8 ° C; flash point 25 ° C (flammable liquid can be volatilized into steam, run into the air When the temperature rises and the volatilization increases, when the volatilized mixture of vapor and air contacts the fire source to flash the spark, the short-lived combustion process is called flashing, and the lowest temperature at which flashing occurs is called flash point. The lower the point, the greater the risk of fire.); melting point -43 ° C; boiling point 125.8 ° C; solubility: insoluble in water, miscible in alcohol, ketone, ester and other organic solvents; density: relative density (water =1) 1.0; relative density (air = 1) 4.07; stability: stable; hazard label 7 (flammable liquid); main use: as solvent and for organic synthesis

 

1 health hazard

 

Pathway: inhalation, ingestion, percutaneous absorption.

 

Health hazards: This product is a mild irritant and anesthetic. It causes headache, dizziness, weakness, nausea, difficulty breathing, etc. after inhalation. Liquid or high concentration vapors are irritating. Take it will stimulate the gastrointestinal tract. Long-term repeated contact with the skin is irritating.

 

2 Toxicological information and environmental behavior

 

Toxicity: It is estimated that it can be moderately toxic through the gastrointestinal tract, skin and respiratory tract. The irritancy is greater than dimethyl carbonate.

 

Acute toxicity: LD501570mg/kg (rat oral); human inhalation 20mg/L (vapour) & TImes; 10 minutes, tearing and nasal mucosa stimulation.

 

Reproductive toxicity: hamster abdominal cavity 11.4mg / kg (pregnant mice), there is obvious teratogenic effect.

 

Hazardous characteristics: flammable, in case of fire, high heat, it may cause burning. Its vapor is heavier than air and can spread to a relatively distant place at a lower place.

 

Combustion (decomposition) products: carbon monoxide, carbon dioxide.

 

3 leakage emergency treatment

 

Quickly evacuate personnel from the contaminated area to a safe area, and conduct isolation to strictly restrict access. Cut off the fire. It is recommended that emergency personnel wear self-contained positive pressure breathing apparatus and wear fire protective clothing. Cut off the source of the leak as much as possible. Prevent entry into restricted spaces such as sewers and flood drains. Small spill: Absorb with or with other inert materials. It can also be scrubbed with an emulsion made of a non-flammable dispersant, and the lotion is diluted and placed in a waste water system. A large number of leaks: building dikes or digging pits. Cover with foam to reduce steam hazards. Use an explosion-proof pump to transfer to a tank truck or special collector, recycle or transport it to a waste disposal site for disposal.

 

4 Protective measures

 

Respiratory protection: When the concentration in the air is high, it is recommended to wear a self-priming filter gas mask (half mask).

 

Eye protection: Wear safety glasses.

 

Body protection: Wear anti-static overalls.

 

Hand protection: Wear rubber gloves.

 

Other: Smoking is strictly prohibited at the job site. After work, take a shower and change clothes. Pay attention to personal hygiene.

 

5 First aid measures

 

Skin contact: Remove contaminated clothing and wash skin thoroughly with soap and water.

 

Eye contact: Lift eyelids and rinse with running water or saline. Seek medical attention.

 

Inhalation: Remove quickly from the scene to fresh air. Keep the airway open. If breathing is difficult, give oxygen. If breathing stops, perform artificial respiration immediately. Seek medical attention.

 

Ingestion: Drink plenty of warm water, induce vomiting, and seek medical attention.

 

Extinguishing method: Spray water to cool the container and, if possible, move the container from the fire to the open space. Extinguishing media: foam, dry powder, carbon dioxide, sand.

 

4. Dimethyl carbonate: C3H6O3

 

(dimethyl carbonate, DMC), is a non-toxic, environmentally friendly and widely used chemical raw material. It is an important organic synthesis intermediate with carbonyl, methyl and molecular structures. Functional groups such as methoxy group have various reaction properties, and are safe, convenient, less polluting, and easy to transport in production. Because dimethyl carbonate is less toxic, it is a promising “green” chemical product.

 

DMC has excellent solubility, narrow melting point, wide surface tension, low viscosity, low dielectric constant of medium, high evaporation temperature and fast evaporation rate, so it can be used as a low toxic solvent in industrial and pharmaceutical industries. It can be seen from Table 1 that DMC is not only low in toxicity, but also has the characteristics of high flash point, low vapor pressure and high explosion limit in air, so it is a green solvent that combines cleanliness and safety.

 

5. Methyl ethyl carbonate

 

Molecular weight: 104.1, density 1.00g/cm3, colorless transparent liquid, boiling point 109 ° C, melting point -55 ° C, is a high-tech, high value-added chemical product that has emerged in recent years, an excellent lithium The solvent of the ion battery electrolyte is the latest product extended with the increase of the output of dimethyl carbonate and lithium ion batteries. Since it has both methyl and ethyl groups, it has both dimethyl carbonate and diethyl carbonate. It is also a solvent for specialty fragrances and intermediates. Due to the imbalance of methyl ethyl, the product is unstable and unsuitable for long-term storage.

 

This product should be stored in a cool, ventilated, dry place, stored and transported according to flammable chemicals.

 

6. Lithium hexafluorophosphate

 

It is white crystal or powder, relative density 1.50. it has strong deliquescent; soluble in water, soluble in low concentrations of methanol, ethanol, acetone, carbonates and other organic solvents. It will decompose when exposed to air or when heated. Lithium hexafluoro phosphate is rapidly decomposed in the air by the action of water vapor during exposure to air or when heated, releasing PF5 to produce white smoke.

 

7. Phosphorus pentafluoride Phosphorus

 

pentafluoride (chemical formula: PF5) is a phosphorus halogen compound having an oxidation number of +5 and containing a three-center four-electron bond. Phosphorus pentafluoride is a colorless malodorous gas under normal temperature and pressure, and it is highly irritating to skin, eyes and mucous membranes. It is a highly active compound that produces toxic and corrosive white hydrogen fumes in humid air. Phosphorus pentafluoride is used as a catalyst for the polymerization reaction.

 

GB No. 23022

 

CAS No. 7647-19-0

 

Chinese name phosphorus pentafluoride

 

English name phosphorous pentafluoride

 

Alias phosphorus fluoride

 

Molecular formula PF5 appearance and traits colorless, irritating malodorous gas, strong smoke in humid air

 

Molecular weight 126.0 boiling point -84.6 ° C

 

Melting point -93.8 ° C solubility

 

Density relative density (water = 1 ) 5.81 (gas); relative density (air = 1) 4.3 stability stability

 

Hazard label 6 (toxic gas, inorganic drugs) is mainly used for generating gases and as a polymerization catalyst

 

. 1 impact on the environment

 

What are the hazards of lithium battery electrolyte on the human body?

 

1. Health hazards.

 

Invasion route: inhalation.

 

Health hazard: Produces toxic and corrosive hydrogen fluoride in humid air. This product has a strong stimulating effect on the skin, eyes and mucous membranes. It can cause respiratory inflammation and pulmonary edema after inhalation.

 

2. Toxicological information and environmental behavior

 

Toxicity: Irritant.

 

Hazardous properties: Produces white, corrosive and irritating hydrogen fluoride fumes in humid air. It liberates highly toxic corrosive gases in the water. It will decompose with alkali.

 

Combustion (decomposition) products: phosphorus oxide, phosphine, hydrogen fluoride.

 

2. Emergency treatment and disposal methods

 

I. Leakage emergency treatment

 

Quickly evacuate personnel from the contaminated area to the upwind and immediately isolate them. When small leaks are isolated, 300 meters, and large leaks are isolated 450 meters, strictly restricting access. It is recommended that emergency personnel wear self-contained positive pressure breathing apparatus and wear anti-virus suits. Cut off the source of the leak as much as possible. Proper ventilation and accelerated diffusion. The leaking container should be properly disposed of, repaired, and used after inspection.

 

Second, protective measures

 

Respiratory protection: When you may be exposed to its vapor, you must wear a self-priming filter gas mask (full face mask). Wear an air respirator if necessary.

 

Eye protection: Protected from respiratory system protection.

 

Body protection: Wear tape anti-virus clothing.

 

Hand protection: Wear rubber gloves.

 

Other: Smoking is strictly prohibited at the job site. Pay attention to personal hygiene.

 

Third, first aid measures

 

Skin contact: Remove contaminated clothing, rinse with plenty of running water. Seek medical attention.

 

Eye contact: Lift eyelids and rinse with running water or saline. Seek medical attention.

 

Inhalation: Remove quickly from the scene to fresh air. Keep the airway open. If breathing is difficult, give oxygen. If breathing stops, perform artificial respiration immediately. Seek medical attention.

 

Fire-fighting methods: Firefighters must wear full-body fire protection suits. Cut off the air supply. Spray the water to cool the container and, if possible, move the container from the fire to the open space. Extinguishing media: dry powder, carbon dioxide.

 

8. Hydrofluoric acid

 

This product is regulated by the public security department in accordance with the Regulations on the Safety Management of Hazardous Chemicals.

 

It is colorless transparent fuming liquid. It is an aqueous solution of hydrogen fluoride gas. It is weakly acidic. Has a pungent odor. It reacts with silicon and silicon compounds to form gaseous silicon tetrafluoride, but it does not corrode plastic, paraffin, lead, gold or platinum. It is miscible with water and ethanol. The relative density is 1.298. 38.2% of hydrofluoric acid is an azeotrope with a total boiling point of 112.2 °C. It is toxic, the minimum lethal dose (rat, abdominal cavity) 25mG / kG. Corrosive, it can strongly corrode metals, glass and silicon-containing objects. Inhalation of vapor or contact with the skin can form ulcers that are difficult to heal.

 

1 Safety measures

 

Leakage: Rapid evacuation of personnel from the contaminated area to a safe area, and isolation, strict restrictions on access. It is recommended that emergency personnel wear self-contained positive pressure breathing apparatus and wear acid and alkali protective overalls. Do not touch the spill directly. Cut off the source of leakage as much as possible to prevent entry into restricted spaces such as sewers and flood drains.

 

A small amount of leakage: mixed with sand, dry lime or soda ash. It can also be rinsed with a large amount of water, diluted in water and placed in the wastewater system.

 

A large number of leaks: construct a dike or digging pit; use a pump to transfer to a tank truck or a special collector, and recycle or transport it to a waste disposal site for disposal.

 

2 Extinguishing methods

 

Flammability: Non-combustible

 

Extinguishing media: water spray, foam

 

Fire Fighting Precautions: Firefighters must wear oxygen breathing apparatus and full protective clothing.

 

3 Emergency treatment

 

Inhalation: Quickly leave the site to fresh air. Keep the airway open. If breathing is difficult, give oxygen. If breathing stops, perform artificial respiration immediately. Seek medical attention.

 

Ingestion: Inadvertently gargle with water, give milk or egg white. Seek medical attention.

 

Skin contact: Immediately remove contaminated clothing and rinse with plenty of running water for at least 15 minutes. Seek medical attention. Or, immediately remove the contaminated clothing, rinse with chlorpyrifos, if it is a fluorine-containing acid, rinse with hexafluorine. Seek medical attention.

 

Eye contact: Immediately lift eyelids and rinse thoroughly with plenty of running water or saline for at least 15 minutes. Or use a chlorpyrifos eye wash (if it is a fluoride acid, rinse with hexafluoride).

 

4Physical and chemical properties

 

Hydrofluoric acid is an aqueous solution of hydrogen fluoride gas, which is a colorless transparent to pale yellow smoke liquid. Has a pungent odor.

 

It has weak acidity, but the ionization degree at the time of concentration is larger than that of the rare time and is different from the general weak electrolyte. It is highly corrosive and has serious damage to teeth and bones. It is highly corrosive to silicon compounds. It should be stored in a closed plastic bottle.

 

It is obtained by dissolving HF in water. Used to engrave glass, clean residual sand on castings, control fermentation, electropolishing and cleaning corrosion of semiconductor wafers (mixed with HNO3). Because of the relatively strong ability to combine hydrogen and fluorine atoms, hydrofluoric acid cannot be completely ionized in water.

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