Creatine Ethyl Ester Malate is a specialized type of creatine compound that blends creatine, ethyl ester, and malic acid. In supplement circles and certain chemistry labs, this substance comes up more often, mostly thanks to how it handles solubility and its claimed bioavailability. Its roots stretch from known creatine monohydrate, but the tweaks in structure give it a solid edge in terms of uptake and stability. Manufacturers often turn to this compound when ordinary forms feel a bit lacking, especially for users with higher demands in performance, fitness, or chemical research.
The molecular foundation starts with the core of creatine, grafted with an ethyl ester group, then merged with malic acid. Its formula often reads as C10H19N3O6, and the molar mass circles roughly 293.27 g/mol. That chemical backbone shapes both how it behaves in water and how it interacts with bodily systems or industrial applications. With a standard density floating near 1.25 g/cm³, it holds a solid form at room temperature but doesn’t shy away from breaking down in solution. You’ll find it offered as a fine or coarse powder, sometimes in crystalline or flake formats, though powder forms see the widest use for easy measurements and consistent dosing.
Creatine Ethyl Ester Malate doesn’t drift far from the pale, off-white color familiar to anyone who’s handled powdered supplements or raw materials. On the material side, it feels dense and soft, easy to scoop, and tends to resist clumping if stored in a dry environment. The compound dissolves faster than straight creatine monohydrate, which some folks in the supplement world notice as improved mixability with liquids. As far as taste, a mild bitterness is typical, making strong-flavored liquids a better bet for masking. Boiling and melting points clock in a bit higher thanks to the added malate, adding resilience in storage and handling.
For anyone ordering or shipping this material, the HS Code usually falls under 2933990099, covering other heterocyclic compounds. Quality batches stay within tight purity standards, often above 98% by assay, and contain only trace levels of heavy metals—usually under 10 ppm. Water content lands low, around 1-2%, to safeguard material stability for long-term storage. Creatine Ethyl Ester Malate keeps its form whether shipped as a solid, powder, pearls, or even a dense liquid mixture when needed for certain preparations.
Handling Creatine Ethyl Ester Malate takes standard lab precautions. Avoid direct inhalation and skin contact, since irritation can develop with prolonged exposure, just like with many fine powders. Material Safety Data Sheets (MSDS) list it as non-flammable and non-corrosive under normal circumstances, but dust clouds from pouring or unloading bulk orders can cause temporary respiratory discomfort. Spillage cleans up best with gloves, a mask, and a damp cloth to tamp down dust. Compared to volatile or hazardous chemicals, this substance stays well within safe handling ranges, but proper labeling and sealed containers prevent unnecessary exposure. Disposal runs through non-hazardous chemical protocols, making it less of a concern for environmental harm than heavier industrial chemicals.
Most people come across Creatine Ethyl Ester Malate in the context of sports supplements, where its rapid absorption and low water retention appeal to those wary of the bloating tied to older forms of creatine. It acts as both the primary active ingredient in some pre-workout mixes and a chemical backbone for newer blends. In raw material procurement, buyers look for detail in specifications, from molecular weight to particulate size, since tight control can impact final blend quality. While more expensive to produce than pure creatine monohydrate, many claim the benefits in bioavailability make up for it, especially where performance and rapid uptake matter most. Chemistry labs value its distinct properties for formulating new blends or testing absorption rates against other creatine types.
Prolonged or misuse of any supplement, including Creatine Ethyl Ester Malate, carries some risk of side effects like gastrointestinal discomfort or kidney strain, especially if taken in extreme doses. Most manufacturers build safety advisories into their packaging, urging use within recommended limits and keeping the supplement out of reach of young children. The lack of volatile organic compounds means storage rarely involves special ventilation or hazardous waste protocols, so most facilities can accommodate it without extra infrastructure.
Selection often circles not only purity and assay documentation, but also the batch’s physical format and how it disperses in liquids. For supplement users, the fastest-dissolving powder trumps other choices. For chemists or manufacturers, stable crystal formats or larger pearls might work better for specific process flows. If refining or blending Creatine Ethyl Ester Malate into a new product, knowing the properties of each batch—density, solubility, assay levels—keeps consistency high and products safe. Transparent supplier documentation and third-party lab verification back up claims about purity and performance, while regulatory codes like the HS Code keep everything above board in global shipping and customs.
