2-(Dimethylamino)Ethanol Bitartrate, often known as DMAE Bitartrate, stands as a chemical compound widely recognized for its use in both industrial and consumer applications. The material comes as a product of combining DMAE—a molecule related to choline—with tartaric acid to form a stable bitartrate salt. Researchers, suppliers, and manufacturers working with raw chemicals spot this compound under the HS Code 2922199090. The formula C6H15NO6, coupled with a molecular weight of about 213.19 g/mol, gives it a distinct signature both structurally and functionally. As a solid chemical, it appears most often as white or off-white crystalline flakes, but depending on processing, it can show up as powder, pearls, or other granular shapes. Its crystalline form makes it easy to distinguish, and it delivers a density near 1.2 g/cm³ packed in containers as pure dry material or as part of a solution for specific laboratory uses.
DMAE Bitartrate’s physical features mean a lot in the context of material handling and lab use. The solid flakes dissolve in water with moderate solubility, producing a clear solution ideal for both formulation and testing. It carries a slight odor, almost reminiscent of amines, due to the dimethylamino content. Its high melting point, generally in the 166-176°C range, signals a stable compound that resists decomposition during transit or storage under ordinary conditions. Chemically, it combines the stimulant properties of DMAE with the acidity of bitartrate, influencing both its reactivity and role in synthesis or supplementation. Instead of acting as just a neutral base or acid, the compound manages to buffer pH changes in solution somewhat, which can matter for certain industrial or research-scale operations.
Looking at the molecular geometry, DMAE Bitartrate bears both a tertiary amine and a hydroxyl group, features that mark its biological and chemical potential. The bitartrate moiety gives the compound increased stability and a crystalline nature, which ease both measurement and transport. Being a salt, its ionic structure allows better dissolution in water and other polar solvents. It has no visible color, and the solid’s crystalline facets tend to scatter light, giving the powder or flakes a very fine reflective finish under direct light. The formula, C6H15NO6, shows both organic and inorganic roots, and the precise bonding patterns matter for anyone looking to modify or synthesize related chemicals.
From my own chemical handling experience, supplies of DMAE Bitartrate come labeled with details such as assay minimums, moisture content, and impurity levels—all elements that labs double-check upon arrival. Typical purity stands around 98% or more, while specifications also highlight the absence of heavy metals, residual solvents, and microbial contaminants for products intended for supplements. Safety becomes immediately relevant, as DMAE Bitartrate, while useful, qualifies as hazardous when mishandled. Contact with eyes or open skin should prompt immediate rinsing; inhaling dust or mist may irritate mucous membranes. Though not as acutely toxic as some chemicals, it calls for gloves, goggles, and in many labs, a chemical fume hood for dry weighing and solution preparation.
DMAE Bitartrate’s solid, flaked or powdered forms make it easy to weigh, disperse, and blend into larger compound matrices. As a raw material, it enters into supplements, cosmetics, and some specialty cleaning compounds. For solution uses, labs dissolve it at specific concentrations to create stock solutions, enabling precise dosing or controlled reactions. Due to its density and particle morphology, the powder stores well in tightly sealed containers, and crystallization prevents rapid caking or clumping even in humid surroundings. The compound’s dual function—as both a nutrient and a chemical intermediate—means it often sits on shelves in both nutritional plants and industrial chemical warehouses.
Every shipment and drum of DMAE Bitartrate carries documentation about its hazardous nature. Spill response typically calls for dry cleanup methods, avoiding water wherever possible until the powder is safely contained. As a chemical raw material, its bitartrate counterion delivers both acidity and good handling practices—not only enhancing shelf life but also discouraging incidental ingestion or misuse. Most regulations assign it both a toxicity class and a transport warning, noting its potential for eye and skin irritation, though in regular use, no chronic health risks pop up with proper ventilation and handling. Education efforts matter: handlers read SDS sheets and know emergency procedures before opening a container or weighing the material.
From my own time working with raw materials, suppliers place heavy value on traceable sourcing, batch testing, and packaging integrity; DMAE Bitartrate is no exception. Chemical manufacturers provide certificates of analysis for each lot, with checks for both molecular purity and absence of harmful contaminants. Packaging—whether for flakes, powder, or larger crystals—uses moisture-resistant liners and tamperproof seals, cutting down on accidental exposure or degradation over time. While the compound does not require specialized cold storage for basic safety, keeping it in a cool, dry place really makes a difference in lifespan and performance. Addressing all hazardous properties means training, labeling, and clear communication among users—from the plant floor to the research lab.
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