Introduction Guanidine Carbonate (CAS numbers: 593-85-1, 100224-74-6, 3425-08-9) is a significant chemical compound widely used in organic synthesis and various industrial applications. Known by synonyms such as diguanidinium carbonate and Bisguanidinium carbonate, it plays an essential role in producing a variety of chemical products. Chemical Profile Molecular Formula: C2H10N2H2CO3 Molecular Weight: 180.17 g/mol Melting Point: 271-272°C Boiling Point: 638.3°C at 760 mmHg Flash Point: 339.8°C Solubility: Highly soluble in water (450 g/L at 20°C), but insoluble in ethanol Physical Properties Guanidine Carbonate typically appears as a white powder or crystal. Storage Conditions: Store in a cool, dry place at room temperature. Keep the container airtight to maintain stability and prevent moisture absorption. Applications Organic Synthesis: Used as a raw material in the synthesis of various chemical compounds, including antioxidants, resin stabilizers, and amino resin pH regulators. Analytical Reagents: pH Adjuster in various chemical processes. Employed as a precipitant in gravimetric analysis, specifically for the determination of zinc, cadmium, and manganese. Utilized for the separation of magnesium in alkali metal analysis. Industrial Uses: Involved in the production of surfactants, cement slurries, and synthetic detergents. Acts as a moisture-resistant agent and synergist in numerous industrial formulations. Additional Applications: Used in the manufacture of guanidine soaps and other chemical compounds, improving their properties and performance. Conclusion Guanidine Carbonate is a versatile and valuable compound with broad applications in organic synthesis and industrial manufacturing. Its role in producing chemical intermediates, reagents, and industrial products underscores its importance in modern chemical research and industrial processes. Proper storage and handling are essential to maintain its stability and effectiveness across a range of applications.

Introduction Guanidine Phosphate, also known as GUPHOS or Diguanidinium hydrogen phosphate, is an essential compound (CAS number: 5423-23-4) widely utilized for its multifunctional properties. It is employed as a flame retardant, waterproofing agent, and rust inhibitor in various industrial applications. Chemical Profile           Molecular Formula:  CH8N3O4P           Molar Mass: 157.07 g/mol           Density: 1.48 g/cm³           Melting Point: 247–250°C (decomposition) Physical Properties Guanidine Phosphate typically appears as a white crystalline powder. It is:            Soluble in Water: 15.5 g/100 mL at 20°C            Soluble in Methanol: Approximately 0.1 g/100 g at 20°C            Insoluble in: Benzene, acetone, and ether Storage Conditions: To maintain its quality, Guanidine Phosphate should be stored at room temperature in a dry, sheltered, and dark environment. Applications Flame Retardants: Applied in the processing of wood, fibers, paper, and other materials to enhance their resistance to fire. Waterproofing Agents: Used to treat various substrates, improving their resistance to moisture and water damage. Rust Inhibitors: Incorporated in industrial processes to prevent rust formation on metal surfaces, thereby prolonging the life of metal products. Conclusion Guanidine Phosphate is a versatile compound that significantly enhances the fire resistance, waterproofing, and rust prevention capabilities of numerous materials. Its broad range of applications in processing wood, fibers, and paper underlines its importance in improving the durability and safety of a variety of products in industrial settings.

Introduction Guanidinium sulphamate (CAS numbers: 50979-18-5, 51528-20-2), also known as Guanidine Sulfamate or Iminourea Sulfamate, is a white crystalline compound widely recognized for its flame-retardant properties. Its ability to enhance fire resistance makes it an essential material in industries focused on safety and fire prevention. Chemical Profile           Molecular Formula: CH8​N4​O3​S ​          Molar Mass: 156.16 g/mol           Melting Point: 128°C           Boiling Point: 466.3°C at 760 mmHg           Flash Point: 235.8°C           Appearance: White crystalline solid           Color: White Storage Conditions To maintain its stability and effectiveness, Guanidinium sulphamate should be stored:            At room temperature            In a sheltered, dry, and dark environment            Away from moisture and direct sunlight Applications Flame Retardant Guanidinium sulphamate is extensively used as a flame-retardant agent across various materials and industries:            Wallpaper and Textiles: Applied to fibers, carpets, and curtains to enhance their fire                   resistance.            Wood and Furniture: Used in the treatment of wood and furniture to provide flame-                   retardant properties.            Industrial Uses: Incorporated into processes where flame-retardant capabilities are                     critical, ensuring enhanced safety and compliance with fire safety standards. Conclusion Guanidinium sulphamate is a highly effective compound for improving fire resistance in diverse materials. Its role in safeguarding textiles, wood, and industrial products underscores its importance in fire prevention strategies. Proper storage and handling are essential to preserve its stability and ensure consistent performance across applications.

Introduction Ammonium Molybdate Tetrahydrate, also known as Hexaammonium molybdate and Ammonium heptamolybdate, is a fundamental chemical compound widely utilized in industrial and scientific fields. With the CAS number 12027-67-7, this versatile substance is integral to catalysis, pigment production, and metal surface treatments. Chemical Profile Molecular Formula:H24Mo7N6O24 Molar Mass:1163.88 g/mol   Density: 2.498 g/cm³   Melting Point:190°C   Solubility:Freely soluble in water   Appearance:White to light-colored powder  Storage Conditions: Store in a cool, dry, ventilated area at room temperature.   Protect from light, high temperatures, and open flames to preserve its stability.   Applications Catalysts Critical in producing catalysts for the oil industry and various chemical reactions, enabling efficient industrial processes.   Metal Molybdenum and Pigments  Utilized in the production of metal molybdenum and ceramic glazes.   Widely applied in creating high-quality pigments for diverse applications.   Metal Surface Treatment and Corrosion Inhibitors Acts as a corrosion inhibitor, protecting metal surfaces from degradation.   Enhances surface treatments for improved durability and performance.   Trace Element Fertilizers  Supplies essential trace elements in agricultural fertilizers, supporting optimal plant growth and productivity.   Reagents and Analytical Uses Employed as a reagent in measuring phosphate, nickel, germanium, selenium dioxide, arsenate, alkaloid, and lead.   Integral to chromatographic analysis and other precise analytical procedures.   Photography and Ceramics Plays a role in developing photographic materials.   Used in creating vibrant and durable pottery glazes.   Conclusion Ammonium Molybdate Tetrahydrate is a multifunctional compound critical to numerous industrial and scientific advancements. Its applications in catalysis, pigment production, metal treatments, and analytical processes make it an indispensable asset in modern technology and research. Proper handling and storage are essential to maximize its efficacy and safety.      

Introduction Ammonium Molybdate, with the CAS number 13106-76-8, is a key chemical compound widely used across various industries. Also known as diammonium molybdate and ammonium paramolybdate, it serves numerous functions in industrial processes, agriculture, and analytical chemistry. Chemical Profile           Molecular Formula: H8MoN2O4​           Molar Mass: 196.01 g/mol           Density: 2.498 g/cm³           Melting Point: 170°C           Water Solubility: Soluble in water, acids, and alkalis; insoluble in alcohol           Appearance: White crystalline powder or solid           Color: White Storage and Handling Conditions: Store in a cool, ventilated warehouse in an inert atmosphere at room temperature. Precautions: Keep containers sealed to prevent moisture and contamination. Separate from oxidants, acids, and edible materials to avoid hazardous reactions. Prohibited Activities: No smoking, eating, or drinking in areas where ammonium molybdate is handled. Applications Production of Molybdenum Compounds Used in the manufacturing of molybdenum wire and other molybdenum compounds, essential for high-temperature applications and industrial processes. Industrial Uses In photography, ceramics, pigments, and catalysts, ammonium molybdate serves as a key raw material in various production processes. Flame Retardants Employed as a flame retardant and fire retardant for pigments, lakes, and fabrics, helping to enhance fire safety and material durability. Agriculture Serves as a trace element fertilizer, providing essential molybdenum for plant growth, particularly in legumes that rely on nitrogen fixation. Metallurgical and Petrochemical Industries Used in the production of molybdenum powder, molybdenum strips, and molybdenum wires. Acts as a catalyst in various petrochemical processes, improving efficiency and yields. Analytical Reagents An important reagent for phosphorus determination, essential in many analytical procedures in chemistry and environmental testing. Pottery Glaze Enhances the appearance and quality of ceramics by improving the finish and providing unique color characteristics when used in pottery glazes. Conclusion Ammonium Molybdate is a highly versatile compound with diverse applications spanning agriculture, industrial manufacturing, and analytical chemistry. Its role in producing molybdenum compounds, serving as a catalyst, flame retardant, and fertilizer, underscores its significant impact on multiple sectors. Proper storage and handling are critical to maintaining its stability and effectiveness in these applications.  

Introduction Sodium Molybdate Dihydrate, also known by various synonyms including Disodium molybdate dihydrate and Molybdic acid sodium dihydrate, is a versatile chemical compound with the CAS number 10102-40-6. It is primarily used in scientific research, as well as in the manufacture of dyes, pigments, and various industrial applications. Chemical Profile The molecular formula of Sodium Molybdate Dihydrate is H4MoNa2O6H_4MoNa_2O_6, with a molar mass of 241.9477. It has a density of 2.37 g/mL at 25°C, and a melting point of 100°C (dec.)(lit.). This compound is slightly soluble in water and not soluble in acetone, making it suitable for specific scientific and industrial processes. Physical Properties Sodium Molybdate Dihydrate appears as white crystals or powder. Proper storage conditions include keeping it between +5°C to +30°C in a ventilated, dry warehouse, and ensuring it is protected from moisture, light, open flames, and high temperatures to maintain its stability and effectiveness. Applications Sodium Molybdate Dihydrate is extensively used in: Scientific Research: Utilized as a reagent for the manufacture of alkaloids and other substances, as well as for the determination of alkaloids, glycosides, total phosphorus, and available phosphorus content in phosphate fertilizers. It is also used for testing protein-free blood filtrate and serum protein. Industrial Uses:  Involved in the production of dyes, molybdenum red pigments, catalysts, molybdenum salts, and sun-resistant lake precipitators. It serves as a raw material for flame retardants and metal corrosion inhibitors in pollution-free cooling water systems. Corrosion Inhibition: Acts as a corrosion inhibitor, ensuring the longevity and durability of metal structures in various environments. Haploid Breeding:  Used in the preparation of H medium, T medium, modified Nish medium, MS medium, and RM medium for haploid breeding. Zinc Plating and Polishing:  Applied as a polishing agent and zinc plating, enhancing the quality and appearance of metal surfaces. Conclusion Sodium Molybdate Dihydrate is a crucial compound in the realms of scientific research and industrial applications. Its wide range of uses in the manufacture of pigments, catalysts, and corrosion inhibitors underscores its importance in advancing chemical processes and product development.