1. Butane Sulfonic Acid Sodium Salt Monohydrate & Anhydrous, 1. Pentane Sulfonic Acid Sodium Salt Monohydrate & Anhydrous
1. DECANE SULFONIC ACID SODIUM SALT MONOHYDRATE & ANHYDROUS, 1. HEXANE SULFONIC ACID SODIUM SALT MONOHYDRATE & ANHYDROUS
1. Heptane Sulfonic Acid Sodium Salt Monohydrate & Anhydrous, 1. Octane Sulfonic Acid Sodium Salt Monohydrate & Anhydrous
Chemicals and Laboratory Reagents include a portfolio of various LR, AR, ACS Grade Reagents, High Purity Acids and Solvents, Buffer Tablets, pH Indicator Solutions, Indicator Papers, Metals and Metallic compounds, Karl Fischer Reagents, Biological Stains, Ion Pairing Reagents.
Ethylene Diamine Tetra Acetic Acid, commonly abbreviated as EDTA, is a versatile synthetic compound with the chemical formula C10H16N2O8. It is widely recognized for its chelating properties, which enable it to bind and sequester metal ions, making it an essential component in industries such as medicine, agriculture, and chemical analysis. EDTA is commonly used in medicine as a chelating agent for treating heavy metal poisoning and as a preservative in some medications. In agriculture, it is employed to enhance nutrient absorption by plants in soil. Additionally, EDTA is crucial in analytical chemistry, serving as a reagent to titrate metal ions and as a stabilizer in cosmetic and food products. Its ability to form stable complexes with metal ions and its diverse applications make EDTA a valuable chemical compound in various fields.
Luminol has become one of the most widely used chemiluminescent reagents due to its advantages of high quantum yield, easy synthesis, and good water solubility. Its development process is the same as the arduous process of human beings. From the beginning, there is not much understanding, to the current glow and fever, it can only be summarized in one sentence: gold always shines. In the future, there may be more uses we don't know to benefit our lives. We only need to learn more about it to discover its unlimited potential as soon as possible. Application in the analysis of inorganic substances Using inorganic ions to enhance or inhibit the chemiluminescence of the luminol system, these metal ions can be measured. It is worth pointing out that some metal ions have higher catalytic activity than metal ions after being combined with complexing agents. For example, using the luminol-H2O2-silver phenanthroline system, the detection limit of silver ions can reach 2.7 10-g/L3. The use of sensitizers can improve the sensitivity of detection. The sensitization effect of triphenylmethane derivatives on the luminol luminescence system. It was found that Coomassie Brilliant Blue G250 had the best sensitization effect on the luminol-H2O2-Cu2+ system. A reverse flow injection technique was used to establish a measurement of Cu2+. The new method has a detection limit of 15. The use of the local concentration effect of surfactants to achieve micelle sensitization has been increasingly used in luminescence analysis. For example, the reversed micellar system FIA method is used to measure V4+, the detection limit is Luminol chemiluminescence analysis has been widely used in various fields, and new methods and new technologies are constantly emerging, especially the combination with FIA, HPLC and other technologies, which overcomes the shortcomings of poor selectivity in luminescence analysis and makes the analysis more flexible. Emblem and accuracy. Because of Rumi's stable performance and low price, practical application research and analysis will have broader application prospects.
Supplier: Specialty chemicals like n acetyl imidazole, kbr(ir grade), ion pairing agents
CAS :147-71-7 HS code : 29181200 EINECS :205-695-6 molecular formula :C4H6O6 MDL :MFCD00004238 Package : 25kg/bags 25ton/40feet container Use 1 Used as medicine separation agent, food additive, biochemical reagent and so on. Uses: This product is widely used in food industry, such as beer blowing agent, food sourness agent, taste correcting agent, used in refreshing drinks, candy, juice, sauce, cold dishes, baking powder and so on. This product conforms to the Japanese food additives public regulations. Use 2 Used as chromatographic analysis reagent and masking agent. Use 3 Tartaric acid is widely used as an acidifier in beverages and other foods, a use similar to citric acid. Tartaric acid is used in combination with tannin as a mordant for acidic dyes, and is also used in certain development and fixing operations in the photographic industry, and its iron salts are photosensitive, so they can be used to make blueprints. Tartaric acid can be complexed with a variety of metal ions, and can be used as a cleaning agent and polishing agent for metal surfaces. Potassium sodium tartrate (Rochelle salt) can be formulated as a Fehring reagent, can also be used in medicine as a laxative and diuretic, and is also used as an intermediate of Cinchophen. Its crystals have piezoelectric properties and can be used in the electronics industry.
Thiourea dioxide or thiox is an organosulfur compound that is used in the textile industry, photographic industry, leather processing industry and paper, pulp, and board industry. It functions as a reducing agent primarily used in the production of bleached recycled pulp. It's utilized in Bleaching of stone ground-wood and pressurized ground-wood. It has been used as a photographic toning agent, in hair preparations, as a dry cleaning agent, in the synthesis of and insecticides, in boiler water treatment, and as a reagent for bismuth and selenite ions. Sales Specification Appearance: White Crystal Powder Purity: 99.0% Min Thiourea Residual: 0.10% Max Sulfate: 0.17% Max Moisture: 0.05% Max Iron: 0.001% Max DOT Transportation UN/NA: UN3341 Proper Shipping Name: Thiourea Dioxide Hazard Class: 4.2 Packing Group: III Packing 50 kg drum/ 18 drums per pallet
1-Cyclohexyl-2-pyrrolidone is useful for separations, extractions, and purifications in a wide range of chemical processes. CHP has been widely applied in various fields of research and industry due to its unique physicochemical properties. It is commonly used as a solvent in polymer chemistry, electrochemistry, and drug delivery. CHP has also been used as a reagent in organic synthesis and as a complexing agent for metal ions. Specifications Assay: 99.50 % Appearance: Colorless clear liquid Moisture: 0.2 % Packing 180 kg metal drum, 4 drums per pallet DOT Transportation UN Number: 2810 Proper Shipping Name: Toxic, liquids, organic, n.o.s. (N-Cyclohexyl-2-pyrrolidone) Hazard Class: 6.1 Packing Group: II
Sodium hexametaphosphate SHMPNSFFCC acts as an excellent sequestrant curing agent emulsifier firming agent flavor enhancer flavoring agent humectant nutrient supplement processing aid stabilizer and thickener surfaceactive agent synergist texturizer and buffering agent Cheese Cured Meats Desserts Dips Eggs Fillings Fruits Gelatin Ice Cream Imitation Cheese Meat Milk Based Beverages Pet Food Polymers Poultry Processed Cheese Processed Meat Seafood Sour Cream Starch Syrups Toppings Vegetable Protein Vegetables Whey Whipped Toppings Yogurt It is also used in personal care and water treatment industries It can be used as a chelating reagent for metal ions an adhesive and a swelling reagent Sodium Hexametaphosphate FCCNSF Aditya Birla WC Code 1902401 Sales Specification Appearance White odorless powder pH1 Solution 65 72 Bulk Density gmcc 10 min Moisture at 110 Deg C for 4 hr 05 max Water Insoluble 005 max Phosphate as P30s 665 685 Loss on ignition 105C 4 hr then 550 C 30 min 10 max Packing 50 lb bag 44 bags pallet Sodium Hexametaphosphate FCC WC Code 1902402 Sales Specification Appearance White powder Phosphate as P2O5 6800 NonActive Phosphate as P2O5 750 Iron Fe 005 pH 1 solution 58 73 Water Insoluble 005 Polymerization Degree 9 21 Packing 50 lb bag 44 bags pallet
Manganese (II) Chloride typically appears as a pale pink or rose-colored crystalline solid and it is soluble in water, which makes it suitable for various aqueous solutions and reactions. Manganese (II) chloride is used as a chemical reagent in various laboratory and industrial processes. It serves as a source of manganese ions in chemical reactions and can participate in redox reactions. Manganese (II) chloride is used in electroplating processes, particularly in the deposition of manganese coatings on metal surfaces. This can enhance corrosion resistance and provide an attractive finish. It is employed as a catalyst in some chemical reactions, including organic synthesis and polymerization processes. In certain cases, manganese (II) chloride is used as an additive in animal feed. It provides essential manganese nutrition to livestock and poultry. Manganese (II) chloride is used in the production of various types of batteries, including dry-cell batteries. It helps improve the performance and efficiency of battery systems. In research laboratories, manganese (II) chloride is used as a versatile reagent in various experiments and reactions. In medicine, manganese (II) chloride has been studied for its potential therapeutic applications, particularly in neurology and neuroimaging. It is used in analytical chemistry techniques for the determination of specific elements or compounds in samples. Manganese (II) chloride is sometimes used in the production of dyes and pigments. It also used as is an important nutrient and is used as food for many plants and animals origin. Manganese (II) Chloride Tetrahydrate Wintersun Code: 13-062-001 CAS No.: 13446-34-9 Molecular Formula: MnCl2 4H2O Formula Weight: 197.91 Sales Specification Appearance: Pink Crystals Assay (dry basis): 98% Min Manganese Content: 27.0% Min Moisture: 0.50% Max Solubility: Freely Soluble in Water Water Insoluble: 0.005% Max pH (5% sol.): 3.5 â?? 6.0 Sulfate: 0.005% Max Calcium: 0.005% Max Potassium: 0.01% Max Sodium: 0.05% Max Zinc: 0.005% Max Magnesium: 0.005% Max Heavy Metals (Pb): 0.0005% Max Iron: 0.0005% Max Packing 50 lb bag, 44 bags per pallet
