Creatine Citrate stands out thanks to its combination of creatine and citric acid, forming a compound with strong appeal in fitness and sports nutrition. This chemical takes solid form at room temperature, appearing as a white or off-white crystalline powder. Unlike plain creatine monohydrate, this variant brings slightly improved solubility in water. You notice this immediately when mixing—less grit, more even fluid. Every scoop supports the raw goals of energy enhancement and muscle recovery, drawing on the molecular structure that blends both creatine’s nitrogen-rich base and citrate’s tang from citrus fruits.
What you see with your own eyes: Creatine Citrate powder pours freely, holds its lump-free texture in storage jars, and holds up fairly well even with a small amount of moisture in the air, resisting caking for some time. The molecular formula combines C16H32N6O16, reflecting the two distinct parts—creatine and citrate—fused at the molecular level. This combination nudges the material's molar mass higher than plain creatine, reaching approximately 610.46 g/mol. Each molecule carries both a basic guanidinium group and several acidic carboxyl groups from the citric acid. The structure translates directly to the real-world: fewer issues with clumping, reliable scoop-to-scoop dosing, and a less chemically bitter taste suspended in liquid.
Processed creatine citrate meets precise quality specifications. Look for the HS Code 2925290090 when moving this material across borders. In practice, bulk shipments from raw material suppliers arrive as fine granules, flakes, or sometimes as large pearls for industrial processing. Density falls in the range of 1.39 g/cm³ for crystalline powder. The product’s solid form guarantees better management in storage containers and makes handling safer in supplement manufacturing. For direct solution mixing, it breaks up in water at room temperature with noticeably better solubility than more common creatine options, measuring around 170 mg/mL at 20°C. Flakes and pearls may see use when large-scale production requires rapid flow or minimal airborne dust, while solid powder offers ease of measurement for everyday users.
What goes on inside the molecule influences every practical detail. The citrate group improves interactions with water molecules, making the whole compound less likely to clump or absorb atmospheric moisture compared to creatine monohydrate. This chemistry brings real-life benefits for those feeling every step in the gym or tracking muscle output for athletic goals. Both parts of the molecule stay stable under normal storage conditions—temperature-controlled storerooms extending shelf life to up to three years if sealed from air and moisture. Chemically, creatine citrate resists breaking down in basic or neutral solutions, though strong acids can hydrolyze it, splitting the molecule. In its raw solid state, the substance shows no significant odor and tastes slightly tart—enough to notice yet easy enough to mask in flavored mixes.
Safe handling starts with a solid understanding. You pick up this white crystalline powder and notice its light, dustable texture—safety data sheets recommend using gloves and avoiding dust inhalation. While not classified as a major chemical hazard under GHS, large doses bring risks: overconsumption causes digestive upsets, and individuals with kidney issues should avoid consistent intake. Products rated for raw material use carry purity benchmarks, often over 98%, with purity crucial for keeping heavy metals, foreign matter, and unsafe byproducts at bay. Material safety guidelines advise storage away from strong oxidizers, acids, or heat—direct sunlight can yellow the powder or cause degradation. No risks of combustion or explosive reaction in standard lab settings, though spill cleanup needs dust masks to prevent respiratory irritation. Users stay safe if they respect the material’s chemical nature and follow basic hygiene and lab safety practices.
Brands and manufacturers rely on creatine citrate for its easy blending and fast dissolution in water, which makes it especially popular among athletes chasing rapid energy boosts without the chalky texture of older creatine forms. In muscular research and sport science, this substrate enables precise dosing, reducing errors often associated with finicky powders. Some research notes mild stomach upset at extremes of intake, but anecdotal feedback leans positive for routine use. As a raw material for health product formulation, this compound sees regular adoption thanks to its consistent physical properties, enabling production planners and formulators to streamline recipes and minimize processing losses that drive costs up elsewhere. In cost-benefit analyses, powder and flake forms provide flexibility for supplement manufacturers, while end users appreciate stable shelf life and the cleaner mouthfeel of a dissolved creatine drink.
As more products crowd store shelves, transparency in sourcing and detailed labeling wins loyalty. Listing HS codes and specific chemical forms—a practice now common among reliable suppliers—helps everyone from bulk buyers to curious consumers trust what’s in the package. For those seeking safer handling and optimal use, a checklist matters: store dry, keep out of reach from children, respect recommended servings, and dispose of unused material in line with chemical safety rules rather than pouring large amounts into the drain. Companies with a reputation for high raw material purity see positive results in both sales and user satisfaction, underscoring the importance of laboratory analysis, proper hazard communication, and diligent staff training on chemical storage. As buyers look for fitness-edge products, the clear benefits of creatine citrate’s particular physical and chemical traits keep pushing it forward in both amateur and elite circles.
