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Safety standards for the use of cyclohexylamine
Cyclohexylamine is an organic compound commonly used in the production of polyamide fibers and polyamide resins. The safety standards for the use of cyclohexylamine mainly involve its toxicity to the human body and environmental impact.
2023-09
2023-09-27
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Interpretation of lithium battery industry
Lithium ion battery was first developed by Sony Corporation in 1990. It is widely used in 3C electronic products, electric tools, new energy vehicles, energy storage and other fields because of its high working voltage, large specific energy, long cycle life, good safety performance, small self discharge, fast charging, wide working temperature and other advantages.
2022-12
2022-12-26
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What is N-methylpyrrolidone and its role in lithium-ion batteries
N-methylpyrrolidone is an organic compound with the chemical formula C5H9NO, also known as 1-methylpyrrolidin-2-one. It is a compound with a cyclic structure, containing a pyrrole ring and a ketone group. N-methylpyrrolidone is commonly used as an intermediate in organic synthesis and can be used to prepare other organic compounds. It is also used as a solvent, surfactant, and pharmaceutical intermediate.
2023-09
2023-09-26
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Dicyclohexylamine ready to ship!
2022-08
2022-08-12
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The role of N-methylpyrrolidone in the production of lithium ion batteries
Lithium ion battery is an internationally recognized ideal chemical energy source. It has the advantages of small size, large capacitance and high voltage. It is widely used in mobile phones, laptops and other electronic products. The expanding field of electric vehicles will bring more space for lithium ion battery development in the future.
2022-12
2022-12-12
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Production process of cyclohexylamine
At present, there are mainly six preparation methods of cyclohexylamine in the world, namely, aniline catalytic hydrogenation under atmospheric pressure and pressure, nitrocyclohexane reduction, chlorocyclohexane catalytic ammonolysis, cyclohexene direct ammoniation, cyclohexanone catalytic ammoniation, cyclohexanol catalytic ammoniation.
2022-12
2022-12-12
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Chemical Properties and Dissolution of Hydrazine Hydrate
Hydrazine hydrate is strongly alkaline. Contact with metal oxides and porous oxides such as mercury and copper that are easy to be reduced will cause fire and decomposition. It can erode glass, rubber, leather, cork, etc. Dehydrate. Decomposition into N2, NHa and H2 at high temperature; Hydrated callus has strong reducibility, and it is associated with halogen, HNO3, KMnO; It can absorb CO2 in the air and produce smoke. In contact with oxidant, it will ignite spontaneously.
2022-12
2022-12-10
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Characteristics of Hydrazine Hydrate Wastewater
2022-12
2022-12-06
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Industrial Application and Downstream Products of Hydrazine Hydrate
2022-11
2022-11-30
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Properties and Stability of Tetrahydrofuran
Tetrahydrofuran is a colorless transparent liquid with an ether like odor. It is miscible with water. The azeotropic mixture composed of water can dissolve alkaloids such as cellulose acetate and caffeine, and its solubility is better than that of tetrahydrofuran alone. General organic solvents such as ethanol, ether, aliphatic hydrocarbons,
2022-11
2022-11-23