2-Acrylamido-2-methylpropane sulfonic acid (AMPS) is a specialty chemical compound widely utilized in various industrial applications. As a versatile monomer, AMPS is commonly employed in the production of water-soluble polymers with applications in water treatment, personal care products, and the oil and gas industry. It is particularly valued for its ability to impart unique properties such as water solubility, hydrophilicity, and ion exchange capabilities to polymer formulations. In water treatment, AMPS-based polymers are utilized as flocculants, scale inhibitors, and rheology modifiers, contributing to enhanced process efficiency and water quality management. Additionally, AMPS finds applications in the synthesis of specialty chemicals, adhesives, and coatings, underscoring its importance in various industrial sectors. Due to its versatile properties and broad applicability, AMPS continues to be a key ingredient in the formulation of advanced materials and products across diverse industries.
Acetic acid, also known as ethanoic acid, is a versatile compound with applications across various industries. In the food industry, it serves as a preservative, flavoring agent, and acidulant, commonly found in condiments, pickles, and salad dressings. It is also utilized in the production of vinegar, contributing to its characteristic tangy flavor. In addition to its culinary uses, acetic acid finds applications in household cleaning products, pharmaceutical formulations, and chemical manufacturing processes. As a colorless liquid with a distinct pungent odor, acetic acid is highly soluble in water and has a wide range of industrial and household applications.
Acrylic acid (CAS Number: 79-10-7) is a versatile organic compound extensively used in polymer chemistry. It serves as a crucial building block for acrylic polymers and resins, including acrylic esters and superabsorbent polymers, with applications spanning adhesives, coatings, textiles, and personal care products. Its reactivity and ability to undergo polymerization make it indispensable in the synthesis of specialty chemicals and materials. Additionally, acrylic acid’s carboxylic acid functionality renders it suitable for water treatment, oil recovery, and pharmaceutical production.
Aluminum sulfate, also known as alum, is a chemical compound commonly used in water treatment, paper manufacturing, and as a flocculating agent in the purification of drinking water and wastewater. In water treatment, it aids in the removal of impurities by causing suspended particles to clump together, facilitating their filtration and removal. Additionally, aluminum sulfate finds applications in soil pH adjustment in gardening and agriculture, as well as in the textile and construction industries. As a white crystalline solid, aluminum sulfate is soluble in water and possesses various industrial and environmental applications.
Ammonium Bicarbonate is used as a component in the production of fire-extinguishing compounds. Ammonium Bicarbonate is widely used in the plastics and rubber industry, in the manufacturing processes of ceramics, chrome leather tanning, and in the synthesis of catalysts. Ammonium bicarbonate is a versatile compound with diverse applications in various industries. In the food industry, it serves as a leavening agent, contributing to the rise and texture of baked goods such as cookies, crackers, and biscuits. Its use in the food industry is attributed to its ability to release carbon dioxide when heated, resulting in the expansion of dough and the formation of a porous structure. Additionally, ammonium bicarbonate finds applications in agriculture as a nitrogen fertilizer, providing plants with essential nutrients for growth and development. In the pharmaceutical industry, it is utilized as an antacid and in the production of certain medications. Ammonium bicarbonate’s broad range of applications makes it a valuable compound in numerous industrial processes.
Ammonium bifluoride, also known as ammonium hydrogen fluoride, is a compound used in various industrial applications. It is commonly employed as an etchant in the semiconductor industry for cleaning and etching silicon wafers during the manufacturing of microelectronics. Additionally, it serves as a flux in metal surface treatment processes, facilitating the removal of oxides and impurities from metal surfaces prior to welding or plating. Ammonium bifluoride is also utilized in the glass industry for frosting and etching glass surfaces. Furthermore, it finds applications in the textile industry for desizing and bleaching fabrics. Due to its corrosive nature and ability to dissolve various materials, proper handling and safety precautions are necessary when using ammonium bifluoride in industrial processes.
Ammonium Carbonate is a complex nitric carbonate fertilizer. Ammonium carbonate, also known as baker’s ammonia, is a chemical compound primarily used in baking as a leavening agent. When heated, it decomposes into ammonia, carbon dioxide, and water, producing gas bubbles that help dough rise and expand during baking. This reaction results in a light and airy texture in baked goods such as cookies, biscuits, and crackers. Apart from its role in baking, ammonium carbonate has limited industrial applications, including use as a smelling salt or in the manufacturing of smelling salts due to its pungent odor. However, its use has declined over the years due to safety concerns and the availability of alternative leavening agents. Overall, while once popular in baking, the use of ammonium carbonate has become less common in modern baking practices.
Ammonium chloride in feed grade is a specialized formulation tailored for animal nutrition applications. It serves as a supplemental source of nitrogen and chloride for livestock and poultry diets. Ammonium chloride is particularly beneficial for ruminant animals, such as cattle and sheep, as it helps prevent the formation of urinary calculi (stones) by acidifying urine and promoting the excretion of excess minerals, particularly calcium. Additionally, it aids in maintaining the acid-base balance in the digestive system, supporting optimal nutrient absorption and overall animal health. Feed-grade ammonium chloride is carefully formulated to meet stringent quality standards, ensuring its safety and effectiveness as a nutritional supplement for livestock and poultry.
Ammonium chloride, in its technical grade form, is a compound extensively used in various industrial processes and applications. It serves as a source of nitrogen for fertilizers, providing essential nutrients for plant growth and development. In addition to its role in agriculture, technical-grade ammonium chloride finds applications in the chemical industry as a precursor for manufacturing other chemicals such as ammonia, chloramines, and quaternary ammonium compounds. It is also utilized in metalworking processes as a flux for soldering and welding, aiding in the removal of oxides and impurities from metal surfaces. Furthermore, ammonium chloride is employed in the pharmaceutical industry for its expectorant properties in cough medicines and in the manufacturing of dry cell batteries. Its versatility and diverse applications make technical-grade ammonium chloride a valuable compound in numerous industrial sectors.
Ammonium polyphosphate is a flame retardant compound widely used in various industries, particularly in the production of fire-resistant coatings, textiles, and plastics. It functions by releasing water vapor and forming a protective char layer when exposed to heat or flames, thereby inhibiting the spread of fire and reducing the risk of ignition. In addition to its role as a flame retardant, ammonium polyphosphate is also utilized as a fertilizer in agriculture. It provides a slow-release source of phosphorus and nitrogen, essential nutrients for plant growth and development. Furthermore, ammonium polyphosphate finds applications in the manufacturing of adhesives, sealants, and paints, where its flame-retardant properties contribute to enhancing product safety and performance. Due to its versatility and effectiveness, ammonium polyphosphate plays a critical role in enhancing fire safety and supporting agricultural productivity across various industries.
Ammonium sulfate is a versatile compound with widespread applications in agriculture, industry, and laboratory settings. In agriculture, it serves as a nitrogen fertilizer, providing readily available nitrogen to plants for enhanced growth and productivity. Due to its high solubility in water, ammonium sulfate is particularly suitable for acidic soils where other nitrogen fertilizers may be less effective. Additionally, it is utilized in the manufacturing of various industrial products, including textiles, detergents, and flame retardants. In laboratory settings, ammonium sulfate is commonly used as a protein precipitant in biochemical purification processes and as a reagent in chemical synthesis. Its multifaceted uses make ammonium sulfate a valuable compound in diverse fields, contributing to agricultural productivity, industrial processes, and scientific research endeavors.
ATMP or aminotris (methylenephosphonic acid) is a phosphonic acid/phosphonate. It is an excellent antiscalant and chelating agent to most metal ions like Ca, Ba, Mg, Fe and Pb, especially Calcium Carbonate (CaCO3). In the water system, it is difficult to hydrolyze and can distort the lattice. In a higher concentrated system, ATMP is also a good corrosion inhibitor. ATMP acid is used in industrial circulating cool water system of thermal power plant and oil refinery plant. ATMP can decrease scale formation and inhibit the corrosion of metal equipment and pipeline. ATMP acid can be used as a chelating agent in woven and dyeing industries and as a metal surface treatment agent.
Precipitated barium sulfate is a finely ground, white crystalline powder produced through chemical precipitation methods. It is widely utilized in various industries for its exceptional physical and chemical properties. In the medical field, precipitated barium sulfate is commonly used as a contrast agent in diagnostic imaging procedures such as X-rays and CT scans, where its high density and low solubility make it ideal for highlighting the gastrointestinal tract. Additionally, it finds applications in the paint and coatings industry as a filler and extender, enhancing opacity, brightness, and durability of coatings while imparting corrosion resistance properties. Furthermore, precipitated barium sulfate is utilized in plastics, rubber, and paper industries for improving product performance and appearance. With its versatile applications and advantageous properties, precipitated barium sulfate plays a vital role in various industrial processes, contributing to product quality and performance enhancement.
Precipitated barium sulfate is a finely ground, white crystalline powder produced through chemical precipitation methods. It is widely utilized in various industries for its exceptional physical and chemical properties. In the medical field, precipitated barium sulfate is commonly used as a contrast agent in diagnostic imaging procedures such as X-rays and CT scans, where its high density and low solubility make it ideal for highlighting the gastrointestinal tract. Additionally, it finds applications in the paint and coatings industry as a filler and extender, enhancing opacity, brightness, and durability of coatings while imparting corrosion resistance properties. Furthermore, precipitated barium sulfate is utilized in plastics, rubber, and paper industries for improving product performance and appearance. With its versatile applications and advantageous properties, precipitated barium sulfate plays a vital role in various industrial processes, contributing to product quality and performance enhancement.
Benzyl alcohol, a clear, colorless liquid with a mild floral scent, is widely employed across industries for its diverse properties. In pharmaceuticals, it serves as a bacteriostatic preservative in injectable medications and finds application in personal care products like cosmetics and soaps due to its fragrance and antimicrobial qualities. Additionally, it functions as a flavoring agent and preservative in the food industry, albeit in regulated quantities, and acts as a solvent in industrial processes such as paints and coatings. Benzyl alcohol also plays roles in adhesive formulations, cleaning products, and laboratory applications, serving as a versatile ingredient with uses ranging from preserving tissue samples to degreasing surfaces. Its multifaceted nature makes it indispensable in various sectors, though careful attention to regulatory guidelines is necessary, particularly in pharmaceuticals and food production.
Borax 10 mol, also known as sodium tetraborate decahydrate, is a crystalline compound composed of sodium, boron, and oxygen. Its chemical formula is Na2B4O7·10H2O. This white, odorless substance is widely utilized in various industries and applications. In household cleaning products, borax acts as a powerful stain remover, deodorizer, and disinfectant due to its alkaline pH and ability to break down grease and grime. Moreover, it serves as a flux in metallurgy, facilitating the soldering process by lowering the melting point of metals. In the manufacture of ceramics and glass, borax functions as a flux and a stabilizer, enhancing the strength and durability of the final products. Additionally, it finds application in the formulation of fertilizers to provide essential boron nutrients for plant growth.
Boric acid, with the chemical formula H3BO3, is a white, crystalline compound that occurs naturally in volcanic areas and mineral springs or is synthetically produced from borax. This compound finds extensive use across various industries and applications. In the pharmaceutical and cosmetic sectors, boric acid is employed as an antiseptic, astringent, and preservative in ointments, eye drops, and skin care products. It also serves as an insecticide and fungicide in agriculture and pest control due to its toxicity to certain pests while being relatively safe for humans and animals when used appropriately. Moreover, boric acid acts as a flame retardant in the manufacture of textiles and plastics, enhancing their fire resistance properties.
Boron 15%, comprising sodium and calcium borate compounds, is a crucial source of boron utilized in various industrial and agricultural applications. In agriculture, it serves as a micronutrient fertilizer, essential for optimal plant growth, flowering, and fruit development. This compound aids in vital processes such as carbohydrate metabolism, cell wall formation, and nutrient absorption in plants. Additionally, boron 15% finds extensive use in the manufacturing of glass, ceramics, and detergents, acting as a flux, strengthening agent, and pH buffer. Its versatility extends to the metallurgical industry, where it facilitates metal processing as a flux and deoxidizing agent.
Boron 15% (Ulexite) is used in foliar applications to address boron deficiency. Ulexite is a naturally occurring sodium-calcium borate that slowly releases boron in soils. It is also used as an algaecide.
Ca EDTA – 14% is a specialty fertilizer, specifically designed to supply highly available calcium cations to plants in moderate pH conditions. The entire concentration of calcium in the product (14% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Ca IDHA – 10% is a specialty fertilizer specifically designed to supply plants with highly available calcium cations. IDHA is a state-of-the-art, fully biodegradable chelating agent (75% degradation within 28 days), a trait that makes it the only environmentally-friendly synthetically-produced chelating agent on the market. The entire concentration of CaO in the product (10% w/w) is 100% chelated by IDHA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Calcium Ammonium Nitrate (CAN) is a widely used nitrogen fertilizer with the chemical formula Ca(NO3)2·NH4NO3. It consists of a mixture of calcium nitrate and ammonium nitrate in varying proportions. CAN is highly soluble in water and provides readily available nitrogen to plants for efficient uptake. This fertilizer is valued for its balanced nutrient composition, delivering both nitrate nitrogen and ammonium nitrogen, which are essential for plant growth and development. CAN is particularly suitable for crops with high nitrogen requirements, such as vegetables and fruits. Its use promotes vigorous vegetative growth, enhances crop yield, and improves overall crop quality. Additionally, CAN is less prone to nitrogen losses through leaching or volatilization compared to urea-based fertilizers.
Calcium Chloride is used in animal feed manufacturing. When used in cow feeding, Calcium Chloride helps in reduce incidents of milk fever and Miscellaneous ailments by supporting improved absorption of Calcium. Calcium Chloride adds acidity, increasing the absorption of dietary calcium. Calcium Chloride products are used as a plant nutrient in pre-harvest treatments of crop foliage, fruits, and vegetables. Low calcium content in fruits and vegetables is blamed for decay and physiological disorders in fruits and vegetables. Pre-harvest applications of Calcium Chloride are used to provide supplemental calcium to plants and growing fruit to delay aging, reduce post-harvest decay, improve firmness, and control the development of physiological disorders.
Calcium Chloride 94% is a versatile chemical compound available in various forms including granules, mini-prills, powder, and pellets. With the chemical formula CaCl2, it is highly soluble in water and widely used across multiple industries. As a de-icing agent, calcium chloride effectively melts ice and snow on roads and walkways, providing traction and improving safety during winter months. In the oil and gas industry, it serves as a drilling fluid additive for stabilizing boreholes and controlling well pressures. Moreover, calcium chloride finds application in concrete admixture formulations to accelerate setting time and enhance strength and durability. In food processing, it acts as a firming agent, preservative, and flavor enhancer. Additionally, calcium chloride is utilized in water treatment to adjust pH levels and remove impurities. Its hygroscopic nature makes it suitable for drying and moisture control applications in packaging and storage environments.
Calcium Formate is the calcium salt of formic acid. It contains 31% calcium and 69% formic acid, with neutral pH and low moisture. When used in feed additives, it can prevent loss of vitamins and decomposes into free formic acid under the effect of gastric acid, thus lowering the pH value of contents in the stomach.
Calcium Nitrate Tetrahydrate, with the chemical formula Ca(NO3)2·4H2O, is a water-soluble compound commonly used as a source of calcium and nitrogen in agriculture. It appears as a white, crystalline solid. This compound provides readily available calcium and nitrate ions to plants, promoting healthy growth, strong cell walls, and improved fruit quality. Calcium nitrate tetrahydrate is particularly beneficial in preventing disorders such as blossom end rot in tomatoes and peppers, which are caused by calcium deficiency. Additionally, it serves as a nitrogen fertilizer, supplying plants with essential nutrients for robust vegetative growth and high yields. Calcium nitrate tetrahydrate can be applied via fertigation systems, foliar sprays, or as a soil amendment. Its water-soluble nature ensures rapid nutrient uptake by plants. Beyond agriculture, calcium nitrate tetrahydrate finds use in wastewater treatment, concrete admixtures, and as a component in cold packs for medical applications.
Calcium Nitrate, Anhydrous, represented by the chemical formula Ca(NO3)2, is a white, crystalline solid that lacks water molecules in its structure. It serves as a versatile source of calcium and nitrogen, widely used in the agriculture industry, water treatment industry, and other chemical processes. In agriculture, anhydrous calcium nitrate is utilized as a water-soluble fertilizer, supplying essential nutrients to plants for optimal growth and development. Its nitrogen content facilitates vigorous vegetative growth, while calcium contributes to cell wall formation and overall plant health. The anhydrous form offers the advantage of higher nitrogen concentration by weight compared to its hydrated counterparts, allowing for more efficient transportation and storage. Additionally, calcium nitrate anhydrous finds application in concrete admixtures to accelerate setting time and enhance strength and durability. It is also utilized in wastewater treatment to remove pollutants and adjust pH levels.
Calcium Nitrate Anhydrous highly pure Calcium fertilizer with a neglectable amount of ammonium, making it a top choice for soilless cultivation. The high level of Calcium improves the strength of cell walls. The presence of Nitrogen has a positive effect on the uptake of Calcium in the plant.
Calcium Nitrite, with the chemical formula Ca(NO2)2, is a chemical compound primarily known for its application as a corrosion inhibitor and concrete admixture. It is a white to slightly yellowish crystalline solid that is sparingly soluble in water. Calcium nitrite is commonly used in the construction industry as a corrosion inhibitor for steel reinforcement in concrete structures, particularly in environments exposed to chloride ions, such as coastal regions or deicing salt exposure areas. By forming a protective layer on the surface of steel, calcium nitrite helps prevent corrosion and extends the lifespan of concrete infrastructure. Additionally, it serves as an accelerating admixture in concrete formulations, enhancing the early strength development and reducing setting time. This property is particularly advantageous in cold weather conditions or when rapid construction schedules are required. Calcium nitrite’s effectiveness as a corrosion inhibitor and concrete admixture makes it an essential component in the construction and maintenance of durable and resilient concrete structures.
Calcium Propionate is a food additive and preservative, with the chemical formula Ca(C2H5COO)2. It is a white crystalline solid that is soluble in water. Calcium Propionate is commonly used in bakery products, dairy products, beverages, and animal feed to prevent the growth of mold and extend shelf life. In bakery applications, it inhibits the development of mold and rope in bread and other baked goods, thereby maintaining freshness and quality. As a preservative, it helps to safeguard food products against spoilage, enhancing food safety and reducing food waste. Overall, Calcium Propionate plays a crucial role in ensuring the quality and safety of a wide range of food products.
Citric Acid is primarily used to adjust soil pH and alkalinity. Citric Acid is also commonly used in poultry diets to promote growth by acidifying the gastrointestinal contents, improving nutrient digestibility, and reducing pathogen loads. It acts as a growth promoter through acidifying the gastrointestinal (GI) content and is considered a favorite determinant in effective nutrient digestion. In addition, by modifying intestinal pH, citric acid also improves the performance and increases the solubility of feed ingredients and the digestion and absorption of nutrients.
Copper Sulfate Pentahydrate 25% (Feed, Fine Crystals, Med., Lg.)See Description
Copper Sulfate Pentahydrate 25% (Feed, Fine Crystals, Med., Lg.)
Copper Sulfate Pentahydrate 25% is a versatile chemical compound with the formula CuSO4·5H2O. It appears as blue crystalline granules or powder and is highly soluble in water. This compound is widely used in agriculture, animal nutrition, water treatment, and various industrial applications. In agriculture, Copper Sulfate Pentahydrate 25% serves as a fungicide and algaecide, effectively controlling fungal diseases and algae growth in crops, vineyards, and water bodies. Additionally, it is utilized as a micronutrient supplement in animal feed to prevent copper deficiency and promote healthy growth and reproduction in livestock. Its efficacy in controlling algae and fungi makes it valuable in swimming pool maintenance and wastewater treatment processes. Copper Sulfate Pentahydrate 25% is also employed in industrial applications such as electroplating, catalyst manufacturing, and pigment production.
Cu EDTA – 15% is a specialty fertilizer, specifically designed to supply highly available copper cations to plants in moderate pH conditions. The entire concentration of copper in the product (15% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Cu(NH4)2 EDTA – 15.5% is a specialty fertilizer, specifically designed to supply highly available copper cations to plants in moderate pH conditions. Cu(NH4)2 EDTA – 15.5% is characterized by several unique properties. The entire concentration of copper in the product (15.5% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-.soluble, free-flowing micro-granules without any impurities or dust
NOT VISIBLE. DADMAC (Diallyldimethylammonium Chloride) is a water-soluble monomer of cationic quaternary ammonium salt with high efficiency. It is mainly used to produce polymers, to synthesize all kinds of macromolecular water treating agents whose functions are neutralization, absorption, flocculation, purification and decoloring, showing excellent effect in decoloring, killing algae and removing organic compounds in wastewater treatment, paper making and textile printing & dyeing industry. DADMAC is also used as modifier of synthetic resin to bring products electrical conductivity and antistatic property. DADMAC is often used as additive in daily chemicals to improve and modify product performances. As to petroleum chemicals, DADMAC can be used as flocculant and blocking agent.
Diammonium Phosphate (DAP) fertilizer provides water-soluble, plant-available phosphate and ammonium, and it contains a combination of strong nitrogen and phosphorous nutrient content to make it a popular choice for growers around the world. This versatile fertilizer is ideal for all types of crops and soils, including low pH or alkaline soil, has excellent storage and transport characteristics, and shows good spreading behaviors due to its granule size.
Dicyandiamide (DICY) is used in fertilizer formulations as a slow/continuous release nitrogen source. There are two major ways in which nitrogen is lost from soil – denitrification, and leaching. Denitrification is the loss of nitrogen to the atmosphere. Leeching is when nitrogen is washed from the soil through rain or irrigation. Dicy has been shown to prevent nitrogen loss through both leaching and denitrification in soil. This helps reduce the negative effects of greenhouse gas emissions such as nitrous oxide and nitrate leaching into waterways.
Dicyandiamide is used as a flame retardant additive in timer, paper, and textile industries. It is also used for color removal treatment of wastewater. It is suitable to treat wastewater with active, acidic, and disperse dyestuffs. It can also be used to treat wastewater from the textile, pigment, printing ink, and paper industries. DICY is also used in the production process of paper & pulp as a retention agent and as a Dye-fixing agent in the textile industry.
Dimethyl Sulfoxide (DMSO) is an organic compound with the chemical formula (CH3)2SO. It is a colorless liquid that is miscible with water and many organic solvents. It is utilized in cryopreservation to protect biological tissues and cells during freezing and storage. In veterinary medicine, DMSO is applied topically to reduce inflammation and alleviate pain in conditions such as arthritis and muscle injuries in animals. Furthermore, DMSO finds application in the laboratory as a solvent for chemical reactions, as a cryoprotectant for preserving cell cultures, and as an antioxidant in biochemical assays. In agriculture, it is primarily used for its ability to enhance the efficacy of certain pesticides and herbicides. It acts as a solvent and carrier for these agricultural chemicals, aiding in their penetration through plant cuticles and cell walls, thus improving their effectiveness.
Disodium EDTA, or ethylenediaminetetraacetic acid disodium salt, is a synthetic compound widely used in various industries for its chelating properties. With the chemical formula Na2EDTA, it appears as a white, crystalline powder that is highly soluble in water. Disodium EDTA is primarily employed as a chelating agent, which means it forms stable complexes with metal ions, effectively sequestering them and preventing their interference in processes such as oxidation, precipitation, and degradation. In the food and beverage industry, Disodium EDTA serves as a preservative and stabilizer, preventing discoloration, rancidity, and flavor loss by chelating metal ions that catalyze undesirable reactions. Additionally, it finds applications in cosmetics, pharmaceuticals, and personal care products as a stabilizer, emulsifier, and enhancer of product consistency. In the textile industry, Disodium EDTA is utilized in dyeing processes to improve color retention and uniformity by chelating metal ions present in water and fabrics. Moreover, it serves as a detoxifying agent in water treatment to remove heavy metals and prevent scale formation in boilers and pipelines.
EDTA acid, or ethylenediaminetetraacetic acid, is a dry product that is widely utilized across industries for its chelating properties; it is useful in systems where sodium ions are undesirable. It forms stable complexes with metal ions, making it valuable in metal ion detection, pharmaceutical stabilization, food preservation, water treatment, and agriculture. In pharmaceuticals, it stabilizes drugs and vaccines, while in food, it extends shelf life by preventing oxidation. Additionally, it helps maintain water system efficiency by preventing scale formation and corrosion. In agriculture, it solubilizes micronutrients in soils and mitigates heavy metal toxicity. Its versatility and effectiveness make it a vital compound in various applications, contributing to product quality and sustainability.
Fe DTPA – 11% is a specialty fertilizer, specifically designed to supply plants with highly available iron cations at slightly higher pH conditions (6.5-7.5). The entire concentration of iron in the product (11% w/w) is 100% chelated by DTPA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
NOT VISIBLE. Fe DTPA – 7% is a specialty fertilizer, specifically designed to supply plants with highly available iron cations at slightly higher pH conditions (6.5-7.5). The entire concentration of iron in the product (7% w/w) is 100% chelated by DTPA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Fe EDTA – 13% is a specialty fertilizer, specifically designed to supply plants with highly available iron cations at slightly higher pH conditions (6.5-7.5). The entire concentration of iron in the product (13% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Fe HBED – 7% is a specialty fertilizer specifically designed to supply highly available iron cations to plants in high pH conditions (above 7.5) and in calcareous soils. The entire concentration of iron in the product (7% w/w) is 100% chelated by HBED and since the product contains no optical isomers, the total iron concentration is completely effective and fully available to plants. The fertilizer is formulated as 100% water-soluble, free-flowing crystals without any impurities. Unlike Miscellaneous chelated-Fe fertilizers, Fe HBED – 7%, with its stability constant at K=10-39, proves efficient in highly alkaline conditions (up to a pH of 12).
FeK DTPA – 11% is a specialty fertilizer specifically designed to supply plants with highly available iron cations at slightly higher pH conditions (6.5-7.5). The entire concentration of iron in the product (11% w/w) is 100% chelated by DTPA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
FeK EDTA – 13% is a specialty fertilizer, specifically designed to supply highly available iron cations to plants in moderate pH conditions. The entire concentration of iron in the product (13% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Ferrous sulfate, available in monohydrate and heptahydrate forms, is a chemical compound with the formula FeSO4. It is commonly used in various industrial, agricultural, and medical applications. As a nutritional supplement, ferrous sulfate is utilized to treat iron deficiency anemia by providing the essential iron needed for hemoglobin production in the blood. In agriculture, it serves as a fertilizer to correct iron deficiencies in plants, particularly in soils with alkaline pH, where iron availability to plants is limited. Additionally, ferrous sulfate is employed in water treatment to remove hydrogen sulfide and control algae growth in ponds and water bodies. In the manufacturing sector, it finds applications in the production of pigments, dyes, and ink formulations.
Glyoxal acid 40% is a chemical compound with the molecular formula C2H2O2. It is widely utilized in various industrial applications, particularly in the textile and paper industries. In textile manufacturing, glyoxal acid is employed as a crosslinking agent for cellulose fibers, imparting wrinkle resistance, dimensional stability, and colorfastness to fabrics. Additionally, it serves as a finishing agent for textiles, enhancing their strength and crease resistance. In the paper industry, glyoxal acid is used as a paper wet strength resin, improving the durability and handling properties of paper products. Furthermore, it finds applications in the production of adhesives, resins, and leather finishes. Glyoxal acid’s ability to crosslink molecules makes it valuable in various chemical processes, contributing to the quality and performance of numerous products.
HEDP 90% solid refers to a concentrated form of hydroxyethylidene diphosphonic acid (HEDP), a versatile organophosphonic acid widely used in industrial water treatment, detergents, and various other applications. With a high purity level of 90%, this solid form of HEDP offers increased potency and effectiveness in scale and corrosion inhibition compared to lower concentrations. It serves as a powerful scale inhibitor in water systems, particularly in cooling water treatment, where it prevents scale deposits and inhibits corrosion on metal surfaces. Additionally, HEDP 90% solid finds applications in household and industrial cleaning products as a sequestering agent, enhancing detergent performance by preventing the formation of scale and soap scum. Its high purity and concentration make it suitable for use in various industries, including textiles and oil and gas, where it is employed as a corrosion inhibitor and chelating agent.
Hydrofluoric Acid (HF) at a concentration of 49% is a highly versatile and potent chemical compound utilized in various industrial applications. Its primary use lies in the semiconductor industry, where it serves as a critical agent for etching silicon wafers and other semiconductor materials with remarkable precision. The ability of HF to selectively dissolve silica-based materials makes it invaluable in this context, enabling the creation of intricate microstructures essential for semiconductor device fabrication. Additionally, HF 49% finds application in the petroleum industry for removing impurities from oil and gas wells, enhancing production efficiency.
Hydrogenated Castor Oil (HCO) is a derivative of castor oil that undergoes hydrogenation, resulting in improved stability and altered physical properties. Castor oil, extracted from the seeds of the castor plant, is subjected to a hydrogenation process that adds hydrogen atoms to its molecular structure. This process converts unsaturated fatty acids in castor oil into saturated fatty acids, thereby increasing its melting point and enhancing its stability against oxidation. HCO finds applications in various industries, including cosmetics, pharmaceuticals, and lubricants. In cosmetics, it serves as an emollient, thickening agent, and stabilizer in formulations such as creams, lotions, and lipsticks. In pharmaceuticals, it acts as an excipient in tablet formulations and as a base for ointments and suppositories. Moreover, HCO is utilized as a lubricant and plasticizer in the manufacturing of greases, waxes, and coatings. Its versatility, stability, and compatibility with other ingredients make HCO a valuable ingredient in a wide range of products.
Magnesium Chloride Hexahydrate is a chemical compound with the formula MgCl2·6H2O, commonly known as magnesium chloride. It exists as a crystalline solid with six molecules of water per molecule of magnesium chloride. This hydrated form of magnesium chloride is highly soluble in water and widely used in various industrial, agricultural, and pharmaceutical applications. In de-icing and dust control, magnesium chloride hexahydrate is applied to roads and highways to prevent ice formation and control dust by absorbing moisture from the air. In agriculture, it serves as a source of magnesium and chloride ions, essential nutrients for plant growth, and can improve soil structure and moisture retention. Additionally, magnesium chloride hexahydrate finds applications in the production of textiles, paper, and fireproofing materials. In medicine, it is used in magnesium supplements and as a topical treatment for skin conditions.
Magnesium Nitrate Hexahydrate, with the chemical formula Mg(NO3)2·6H2O, is a crystalline compound commonly referred to as magnesium nitrate. This hydrated form of magnesium nitrate is highly soluble in water and finds application in various industrial, agricultural, and laboratory settings. In agriculture, magnesium nitrate hexahydrate serves as a source of magnesium and nitrogen, essential nutrients for plant growth. It is often utilized as a fertilizer to correct magnesium deficiencies in soils and promote healthy plant development. Additionally, magnesium nitrate hexahydrate is employed in laboratory experiments as a source of magnesium ions and nitrate ions. In industrial applications, it finds use in the manufacture of catalysts, fireworks, and pyrotechnic compositions. Furthermore, magnesium nitrate hexahydrate is utilized in the preservation of wood and textiles due to its fire-retardant properties. Its versatility and solubility make magnesium nitrate hexahydrate a valuable compound across multiple industries.
Magnesium Sulfate Anhydrous, often referred to as anhydrous magnesium sulfate or simply magnesium sulfate, is a chemical compound with the formula MgSO4. It is the anhydrous form of magnesium sulfate, meaning it does not contain any water molecules in its crystal structure. This white, crystalline powder is highly soluble in water and finds application in various industrial, agricultural, and pharmaceutical fields. In agriculture, magnesium sulfate anhydrous serves as a source of magnesium and sulfur, essential nutrients for plant growth. It is commonly used as a fertilizer to correct magnesium deficiencies in soils and enhance crop yield and quality. Additionally, it finds applications in horticulture and hydroponics as a magnesium supplement. In the pharmaceutical industry, magnesium sulfate anhydrous is utilized in medical treatments such as magnesium deficiency therapy and as a component in Epsom salt baths for muscle relaxation and pain relief. Furthermore, it is employed in industrial processes such as the manufacture of fertilizers, explosives, and fireproofing materials. Its versatility and importance in various sectors make magnesium sulfate anhydrous a valuable compound with numerous applications.
Magnesium Sulfate is used as a granulation aid for compound fertilizers. When solubilized, it is used in fertigation (the use of fertilizers in irrigation systems).
Magnesium Sulphate Heptahydrate is a specialty fertilizer with high concentrations of magnesium (MgO; 16.3%) and sulfur (SO3; 32.5%). It is formulated as 100% water-soluble, free-flowing crystals without any impurities. As a result of relatively low hygroscopicity, there is little to no risk of caking.
Magnesium Sulphate Heptahydrate is an effective source of magnesium and sulfur and is mainly recommended for foliar application, hydroponics, and fertigation. The high concentration of nutrients in this fertilizer meets the needs of even the most demanding plants. It is recommended for preventive and corrective fertilization of all crops.
Magnesium Sulphate Heptahydrate ensures the quick and effective fertilization of plants with both of the secondary nutrients it contains. Magnesium is a central component of the chlorophyll molecule; as such, it is essential for optimal photosynthesis. It also enhances the catalytic activity of many enzymes by establishing a precise geometry between the enzyme and its substrate. Sulfur is a uniquely important part of three amino acids, making it essential for all known structural and functional proteins (enzymes). It is especially crucial for oil and protein crops, which explains why it is considered as the third major plant nutrient after nitrogen and phosphorus for oilseed, soybean, forage, and maize. An increasing amount of new evidence points to the high importance of sulfur in plant defense mechanisms against biotic and abiotic stresses.
Magnesium Sulphate Heptahydrate is an effective product for the correction of magnesium and sulfur deficiencies and for treating the physiological diseases that they cause.
Magnesium Sulfate Monohydrate, commonly known as Epsom salt, is a chemical compound with the formula MgSO4·H2O. It is characterized by one water molecule per molecule of magnesium sulfate. This hydrated form of magnesium sulfate is widely utilized in various industrial, agricultural, and medical applications. In agriculture, magnesium sulfate monohydrate serves as a fertilizer to provide magnesium and sulfur, essential nutrients for plant growth. It is particularly effective in correcting magnesium deficiencies in soils and promoting healthy crop development. Additionally, magnesium sulfate monohydrate finds applications in horticulture and hydroponics as a magnesium supplement. In the medical field, it is commonly used in baths and poultices for its therapeutic properties, including muscle relaxation and relief from minor aches and pains. Furthermore, magnesium sulfate monohydrate is employed in cosmetic formulations, as a drying agent in organic synthesis, and in the manufacture of textiles and fire extinguishing agents. Its versatility and diverse range of uses make magnesium sulfate monohydrate a valuable compound in various industries.
A highly popular dietary supplement for use in animal feed, Methylsulfonylmethane (MSM) is a naturally occurring chemical found in plants, humans, and animals. Although it’s often employed as an anti-inflammatory agent, MSM can introduce a range of benefits to animal feed product lines due to its additional function as a contributor to healthy collagen formation. This makes it a key ingredient for supporting the maintenance of healthy skin, hooves, and respiration in animals.
Mg EDTA – 10% is a specialty fertilizer, specifically designed to supply highly available magnesium cations to plants in moderate pH conditions. The entire concentration of MgO in the product (10% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Mn EDTA – 13% is a specialty fertilizer, specifically designed to supply highly available manganese cations to plants in moderate pH conditions. The entire concentration of manganese in the product (13% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
MnK2 EDTA – 12.5% is a specialty fertilizer, specifically designed to supply highly available manganese cations to plants in moderate pH conditions. The entire concentration of manganese in the product (12.5% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing microgranules without any impurities or dust.
Monoammonium phosphate is a water-soluble crystalline chemical. It is used as raw material for the production of water-soluble NPK fertilizers for protected ground and open-field (in greenhouses, hydroponics, irrigation systems), and as a raw material for the preparation of liquid complex fertilizers.
Monocalcium phosphate (MCP) is a food supplement for livestock and poultry diet to replenish calcium and phosphorus that contribute to the formation of strong bone tissue and skeleton, improve metabolism, functions of the nervous, immune, and reproductive systems, and increase productivity.
Monoethanolamine (MEA) is a versatile organic compound with applications across various industries. As a key ingredient in the production of surfactants, detergents, and emulsifiers, MEA is widely utilized in the formulation of personal care products, household cleaners, and industrial fluids. Additionally, it serves as an important intermediate in the manufacturing of pharmaceuticals, agrochemicals, and corrosion inhibitors. In the gas treatment industry, MEA plays a crucial role as an absorbent for removing carbon dioxide and hydrogen sulfide from natural gas and refinery gases. With its multifunctional properties and widespread applications, MEA continues to be a vital component in numerous industrial processes.
Monopotassium Phosphate is a water-soluble PK fertilizer. It is used both in protected and open fields for any phenological stages of plant development, also for foliar application. Monopotassium phosphate is quickly absorbed by plants, which allows for use in root applications through irrigation systems. It is especially recommended to use MKP in hydroponics, as it does not contain chlorine and any insoluble compounds.
Phosphoric Acid is the starting material for most commercial phosphate fertilizers. It is also used as a soil pH adjuster. Phosphoric Acid is also used as a flavoring agent in animal feed products.
Phosphorous Acid is the starting material for several commercial phosphate fertilizers. It is also used to prevent a variety of microbial plant diseases.
Polyphosphoric acid, a viscous liquid composed of orthophosphoric acid molecules linked together in a chain-like structure, finds extensive use in various industrial applications. It serves as a versatile intermediate in the production of phosphorus-containing compounds, such as fertilizers, detergents, and flame retardants. In the pharmaceutical industry, polyphosphoric acid is utilized as a catalyst and reagent in organic synthesis processes. Moreover, it plays a crucial role in the manufacturing of specialty polymers, corrosion inhibitors, and as a stabilizer in the production of plasticizers. Due to its high reactivity and acidic properties, polyphosphoric acid is handled with caution in industrial settings and offers diverse applications across different sectors.
Potassium Acetate product has the highest degree of foliar availability out of any Miscellaneous potash source. Acetate-based nutrients generally have superior foliar availability over traditional nutrients. Lower use rates and more efficient nutrient utilization are typical of acetate-based nutrients. This allows crop managers to reduce their overall fertilizer salt loads while safely achieving excellent tissue levels of nutrients. Potassium Acetate has up to five times the foliar availability of traditional forms of potassium such as potassium nitrate.
Due to its low salt index and high solubility, Potassium Hydroxide (caustic potash) serves in the manufacture of liquid fertilizer mixtures. KOH liquid is known to increase crop yield and improve the drought tolerance of crops.
Potassium Sulfate is an excellent source of K nutrition for plants. The K portion of the K?SO? is no different from Miscellaneous common potash fertilizers. However, it also supplies a valuable source of S, which protein synthesis and enzyme function require. Like K, S can also be too deficient for adequate plant growth. Further, Cl- additions should be avoided in certain soils and crops. In such cases, K?SO? makes a very suitable K source.
Potassium Tripolyphosphate (KTPP) is widely used as a preservative in animal feed products. KTPP is also used as a source of potassium and phosphorous in water-soluble fertilizers.
Potassium Tripolyphosphate is widely used in metal surface treatment, such as industrial parts cleaning. It is also used as a builder for detergents and liquid cleaning formulations.
Sodium Carbonate (soda ash) is used as a pH buffer to assist in maintaining proper soil pH. It is also used as a dairy cow feed supplement to help stabilize rumen pH by reducing acidic conditions.
Sodium Citrate functions as a complexing agent over a wide pH range due to its efficiency in forming stable chelates with divalent metals, thereby reducing the adverse effects these metals can have on systems.
Sodium Glucoheptanate functions as a complexing agent over a wide pH range due to its efficiency in forming stable chelates with divalent metals, thereby reducing the adverse effects these metals can have on systems.
Sodium Gluconate functions as a complexing agent over a wide pH range due to its efficiency in forming stable chelates with divalent metals, thereby reducing the adverse effects these metals can have on systems.
Tricalcium Phosphate (TCP) is primarily used as a feed additive feed for livestock. It can promote digestion, increase weight, and increase the rate of milk production. Tricalcium Phosphate serves as a source of calcium and phosphorous for liquid fertilizers.
Urea Phosphate is a fertilizer having NPK formula 17-44-0. It is soluble in water and produces a strongly acidic solution. Urea Phosphate is sometimes added to blends that contain calcium nitrate, magnesium nitrate, and potassium nitrate to produce water-soluble formulas such as 15-5-15 and 13-2-20. The acidity of urea phosphate allows Ca, Mg, and P to co-exist in solution. Under less acidic conditions, there would be precipitation of Ca-Mg phosphates. Urea phosphate is often used in drip irrigation to clean pipe systems
Zinc Sulfate Heptahydrate is a fertilizer containing zinc and sulphur used for combating a zinc deficiency in plants such as fruits and vegetables, flowers, vines and ornamentals grown in both soil and soilless variations. Zinc Sulfate is an essential nutrient for animal health and can be used in animal feed to ensure healthy growth and development. An adequate Zinc Sulfate level can play a crucial role in an animal’s health and assist in bodily functions including proper vitamin absorption and protein synthesis.
Zinc Sulfate Monohydrate is a granulated zinc fertilizer for dry application to the soil, either on its own or in blends with Miscellaneous fertilizers. Zinc Sulfate is an essential nutrient for animal health and can be used in animal feed to ensure healthy growth and development. An adequate Zinc Sulfate level can play a crucial role in an animal’s health and assist in bodily functions including proper vitamin absorption and protein synthesis.
Zinc Sulfate Monohydrate powder is a zinc fertilizer for foliar and hydroponic applications. Zinc Sulfate is an essential nutrient for animal health and can be used in animal feed to ensure healthy growth and development. An adequate Zinc Sulfate level can play a crucial role in an animal’s health and assist in bodily functions including proper vitamin absorption and protein synthesis.
Zn EDTA – 15% is a specialty fertilizer specifically designed to supply highly available zinc cations to plants in moderate pH conditions. The entire concentration of zinc in the product (15% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
Zn HBED – 7% is a specialty fertilizer, specifically designed to supply highly available zinc cations to plants in high pH conditions (above 7.5) and in calcareous soils. The entire concentration of zinc in the product (7% w/w) is 100% chelated by HBED and since the product contains no optical isomers, the total zinc concentration is completely effective and fully available to plants. The fertilizer is formulated as 100% water-soluble, free-flowing crystals without any impurities. Unlike Miscellaneous chelated-Zn fertilizers, Zn HBED – 7% proves efficient in highly alkaline conditions (up to a pH of 12). As the HBED chelating agent is also used in medicine to treat patients suffering from various iron disorders, it is not only safe for humans, but also for the environment. This product serves as an effective source of zinc under high pH conditions, when applied directly to the soil and when applied through fertigation and hydroponics. It is recommended for preventive and corrective fertilization in all agricultural and horticultural crops.
Zn IDHA – 10% is a specialty fertilizer specifically designed to supply plants with highly available zinc cations. IDHA is a state-of-the-art, fully biodegradable chelating agent (75% degradation within 28 days), a trait that makes it the only environmentally-friendly synthetically-produced chelating agent on the market. The entire concentration of zinc in the product (10% w/w) is 100% chelated by IDHA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.
ZnK2 EDTA – 14.5% is a specialty fertilizer, specifically designed to supply highly available zinc cations to plants in moderate pH conditions. The entire concentration of zinc in the product (14.5% w/w) is 100% chelated by EDTA, making it completely effective and fully available to plants. The fertilizer is formulated as fully water-soluble, free-flowing micro-granules without any impurities or dust.