Dicreatine Citrate stands as a chemical compound made from the union of creatine and citric acid. The structure brings together two creatine molecules with a single citric acid unit, which you can see in its chemical formula, C10H20N6O7. This combination produces a water-soluble white to off-white powder, recognized for its use in nutrition products, formulation work, and certain chemical processes. The compound appears in several physical forms, with powder remaining the most common, though under some handling methods it can transform into flakes or even a crystalline solid.
Taking a closer look, Dicreatine Citrate displays a molecular weight right around 368.3 g/mol. It comes as a solid, feels slightly grainy in the hand, and usually carries a faint odor, if any. Density sits near 1.4 g/cm³, which matches its solid nature and helps with easy measurement. It dissolves well in water, forming a clear solution when mixed within the recommended concentration ranges. Exposure to air can lead to slight clumping, which sticking the material in an airtight container will help prevent. Not flammable, not explosive—so standard precautions for chemical storage apply. Handling with gloves keeps any irritant potential away from the skin, and working in a well-ventilated space helps limit dust inhalation.
The structure behind Dicreatine Citrate reveals two creatine molecules (C4H9N3O2 each) bonded to one citric acid molecule (C6H8O7). This forms a stable compound, which can be outlined as C10H20N6O7 overall. The combination gives the product unique solubility compared to pure creatine, and it can be broken down in highly acidic or basic solutions, where it returns to its base components. Knowing the structure aids in applications needing a steady release of creatine, along with added citric acid for flavor or preservation.
Manufacturing starts with pharmaceutical or food-grade creatine monohydrate and citric acid—both raw materials with established global supply chains. Purity matters: suppliers rely on tight quality checks to avoid contamination or off-spec batches. Most plants follow ISO-certified procedures, with traceability from raw procurement through finished packing. Consistency means users get a reliable product, batch after batch, with a low margin of error on moisture, ash, and solubility specs.
Importing and exporting Dicreatine Citrate means knowing its proper designation. International trade places it under the Harmonized System Code (HS Code) 2925.20, which falls within the broader classification for imides and their derivatives. Many countries classify this chemical as a non-hazardous material, but shipping rules vary. Documentation typically includes full test reports, product specifications, and material safety data sheets. Transportation teams store it in sealed drums, keeping water and dust at bay, and often meet customs requirements for nutritional ingredients or chemical additives.
Typical product shipments include a comprehensive certificate of analysis. This outlines moisture below 1.0%, creatine content ranging between 40–50%, and total citric acid making up the difference. Bulk density tends to fall between 0.4–0.7 g/cm³—important when working with automated dosing or packaging lines. The material, in a physical sense, is classified as non-volatile, non-hygroscopic, and can be supplied either as fine powder, irregular flakes, or the occasional pearl-like granule, depending on processing technique and customer specification.
The strong presence of Dicreatine Citrate in nutritional supplements comes from its high creatine supply and rapid dissolution. Supplement makers prefer this variant because athletes, bodybuilders, and regular users value quick-mixing and stable taste profiles. It also slips into animal feed formulations where rapid uptake stands as a priority. Away from sports nutrition, chemical engineers turn to the compound for use in food preservation blends, buffering agents, and sometimes as a controlled creatine source during fermentation or cell culture processes. The compound’s fine particle size means it handles smoothly in most manufacturing equipment—pouring, blending, and compounding without the headaches that come from sticky, hygroscopic powders.
In terms of safe handling, Dicreatine Citrate does not register as hazardous per GHS and most UN shipping regulations. Still, no one wants a cloud of powder in the air or contact with the eyes—simple precautions go a long way. Store the bags or drums in cool, dry spaces. Use gloves and dust masks to keep skin and lungs clear of irritation. Washing hands after transfer or weighing stops any mild irritation. Material safety data sheets remind workers that while the chemical isn’t classed as dangerous, good housekeeping and basic PPE help avoid unnecessary exposure. There’s no evidence of mutagenic or reproductive hazards at the typical exposure levels found in industrial or dietary use, but proper storage and minimal exposure keep risks lower.
Mixing Dicreatine Citrate in water showcases its solid appeal for both formulators and end-users. The compound dissolves within seconds at room temperature when stirred, producing a clear, stable solution. That solution holds steady over typical shelf lives, avoiding cloudiness or unwanted sediment. For applications needing a stock solution—a liter batch at a time—manufacturers stick with concentrations up to 10% w/v, since higher amounts may see diminishing solubility returns. Many finished products come as classic powder, though pre-mixed liquid solutions show up for direct use customer requirements.
Production, storage, and distribution all lean on a reliable supply chain. Sometimes, disruptions hit raw material sources—shifts in fermentation-based creatine or weather impacts on citric acid crops. The chemical industry keeps a watchful eye on carbon footprint, waste water, and solvent use. Some solutions here: investing in local sourcings, certifying suppliers under environmental standards, even recycling wash water where possible. For those using Dicreatine Citrate in finished products, batch traceability, robust QC, and third-party testing give peace of mind that what is on the label matches what's in the bag.
Reliable chemicals like Dicreatine Citrate matter to health brands, manufacturers, and the lab workers running quality checks. Shifts in material properties—unexpected clumping, lower purity, or inconsistent density—bring real-world production headaches. Those on the front lines—production supervisors, warehouse managers, or regulatory staff—know the product’s value springs from consistency and safety. Good communication with suppliers, investment in airtight packaging, and real transparency on test methods set apart dependable manufacturers. Users taking the time to examine COA sheets, question raw material origins, and check regulatory compliance step up product safety and consumer trust. These factors make up the backbone of sound chemical commerce and keep safety at the forefront.
