Perfuming

Cosmetics, hand lotions, adjuvant.

Can be used in perfumes and in the synthesis of tryptophan.

Benzaldehyde is an important raw material for the medicine, dye, perfume and resin industries, and can also be used as a solvent, plasticizer, and low-temperature lubricant. In the flavor industry, it is mainly used to prepare food flavors, and a small amount is used in daily chemical flavors and tobacco flavors. Although it is widely used as a commercial food seasoning and industrial solvent, the main use of benzyl alcohol is to synthesize a variety of other compounds from pharmaceuticals to pl

Xylene, is the precursor for Terephthalic Acid and Dimethyl Terephthalate, both monomers used in the production of polyethylene terephthalate (PET) plastic bottles and polyester clothing. It can also be used as a solvent.

Used as pesticides, dye intermediates and solvent antioxidants, etc. Mainly used as intermediates for advanced coatings such as benzo-melamine, as well as intermediates for the synthesis of pesticides, aliphatic amines, and benzoic acid. It can also be used as nitrile rubber, resin, Solvents for polymers and coatings. The series of intermediates derived from benzonitrile are mainly: benzylamine, benzamide, thiobenzamide, haloimide, imidate, thioimidate, amidoxime, hydrazine, etc. Mainly used for

Solvent, gas dehydrating agent, extractant, water softener, gas chromatography fixed solution, suitable for aqueous solution analysis, selective polyethylene glycol is similar, used for analysis of oxygen compounds (especially alcohol), aniline, fatty amine, pyridine and quinoline Porphyrin.

Antimicrobial, antipruritic Used as raw materials and fixatives for perfumes, pharmaceutical raw materials and anesthetics, preservatives, dyeing auxiliaries, solvents for paints and inks, and used to make ballpoint pen oil; used as chromatographic analysis reagents, and also used in organic synthesis; used to prepare flowers Fragrance oil and medicine, etc., also used as a solvent and fixative for spices

Disinfectant, phenolic resins, tricresyl phosphate, ore flotation, textile scouring agent, organic intermediate, manufacture of salicylaldehyde, coumarin, and herbicides, surfactant, synthetic food flavors (para isomer only). Cresol is used in disinfectants and fumigants,in the manufacture of synthetic resins, inphotographic developers and explosives.Cresol is used at 0.15-0.3% concentration as an antimicrobial preservative in intramuscular, intradermal, and subcutaneous injectable pharmaceu

1. Suitable for HPLC, spectrophotometry, environmental testing
2. Meets urethane grade requirements (H2O 0.05%)
3. Ethyl Acetate is generally used as a solvent in organic reactions.
4. It is used in chromatography saolvent; extraction medium.

2-Naphthol, a compound of great importance in the field of chemistry, is the product of a series of metabolic processes in living organisms, mainly catalyzed by isozymes of the cytochrome P450 family, such as CYP 1A1, CYP 1A2, CYP 2A1, CYP 2E1, and CYP 2F2. This compound exists in the form of dry powder or liquid/solid, with a crystalline appearance ranging from white to pale yellow, emitting a unique odor, which is a distinctive chemical characteristic. The structural feature of 2-naphthol lies in its naphthol structure with a hydroxyl group at the 2nd position, which endows it with a series of biological activities. It is recognized as an antinematode agent, exerting inhibitory effects on nematodes, while its chemical properties also make it considered a genetically toxic substance, potentially affecting genetic material. Furthermore, 2-naphthol is an exogenous metabolite of humans and mice, commonly found in human urine, showing its metabolic pathway in the body. It also possesses the characteristic of a free radical scavenger, possibly participating in the body's antioxidant mechanism. In terms of physical and chemical properties, the density of 2-naphthol is 1.28 g/cm³ at 20°C, its melting point is 121.6°C, and its boiling point is 285°C, with a certain degree of volatility. Its flash point is 160°C, indicating the risk of fire or explosion in high-temperature environments. Its refractive index is 1.548, and its water solubility is extremely low, only able to dissolve in water at extremely low concentrations (1 g/L, 20°C). These characteristics are crucial for safe handling in laboratories and industrial production. When storing and handling 2-naphthol, strict adherence to safety regulations must be followed. It should be stored away from heat sources, sparks, and flames, and should be avoided in contact with open flames. At the same time, it should be stored away from direct sunlight to prevent it from degrading due to photochemical reactions. Keeping the container closed can prevent evaporation and reaction with oxygen in the air. The vapor pressure of 2-naphthol is 10 mm Hg (145.5°C) and its vapor density is 4.97 (relative to air), indicating that it may form flammable vapors under certain conditions. It has a weak phenolic odor and may irritate the respiratory system. Additionally, its hydroxyl radical reaction rate constant and autoignition temperature, among other parameters, reveal the chemical reactions it may participate in under certain conditions, suggesting that extra care is needed when handling and using it. In experimental operations, appropriate personal protective equipment such as chemical protective goggles, respiratory protection devices, and chemical protective gloves should be used to prevent skin contact and inhalation of its vapors. If accidental inhalation occurs, personnel should be immediately moved to fresh air and seek medical assistance. After skin contact, immediate rinsing with plenty of water should be done and medical attention sought promptly. Additionally, 2-naphthol may also contaminate the environment, so any spills or waste should be disposed of according to local regulations and not discarded carelessly. In analysis and synthesis work, special sealed equipment is typically used for operation to reduce exposure and prevent leaks. In cases where heating is required, a water bath or oil bath should be used, avoiding direct flame heating to reduce the risk of fire or explosion. At the same time, its solutions should be stored in a dark place to slow down its possible photochemical reactions. The solubility of 2-naphthol is higher in organic solvents such as alcohol, ketone, and ether, which makes it have certain application value in organic synthesis. However, these characteristics also increase the risk of forming a mixture of solvent vapors during handling, so it should be carried out in a well-ventilated environment and with good ventilation facilities. Understanding these properties of 2-naphthol is crucial in research and industrial production, not only for the safety of experimental personnel but also for the quality of products and environmental protection. Therefore, it is necessary to have a thorough understanding of the properties of 2-naphthol and strictly follow safety operating procedures before conducting related work.