Synephrine Tartrate comes from the energetic marriage of synephrine, a protoalkaloid, and tartaric acid. Anyone with an interest in biochemistry or the supplement industry can spot Synephrine Tartrate’s rise in fat-burning recipes and pre-workout supplements. From my experience reading chemical analysis reports and handling pure substances in a lab, it’s clear the properties of this compound set it apart. It lands on workbenches as a white or near-white crystalline powder, sold in flakes, pearls, or even as chunky solid pieces depending on suppliers. You won’t see this compound in a flashy liquid—shelf stability heavily favors its powder or crystalline state. It drops into vials and jars by the gram, often paid for by chemical distributors intent on purity, and prescribed density standards matter for those doing large-scale mixing (in water, ambient temperature solubility reaches about 20 g/L, with a specific gravity around 1.3 g/cm³).
From a molecular standpoint, Synephrine Tartrate’s formula is C13H21NO9. Chemists can look at its 3D structure and see rings and chains typical to organic tartaric salts coupled with the active group in synephrine. Properties of both parent compounds intertwine here, shaping Synephrine Tartrate’s physical traits: colorless to near-white, non-hygroscopic, odorless, with a melting range approaching 150 °C. You won’t find it evaporating away or breaking down quickly—it stands up to basic storage demands. The structure gives this compound a solidness that always reassures hands-on chemists, especially during weighing, bottling, or when you’re forced to run purity checks—nothing unpredictable, no hidden surprises.
The product lands on international ledgers under HS Code 2932999099, a useful number for importers, customs officers, and anyone tracking chemical movements worldwide. Raw Synephrine comes from bitter orange peel—Citrus aurantium—a detail that matters to herbalists and large extract houses who want full transparency from field harvest to final product. Tartaric acid, often derived from the sediment left over after winemaking, explains the compound’s food-grade possibilities and has a long history in the pharmaceutical industry. These raw materials are processed, purified, and brought together—no shortcuts. Synephrine Tartrate remains solid, non-volatile, and proven stable under normal transit. During my run as a chemical safety consultant, I learned consistent density and crystal habit are good indicators of a quality batch; uneven powder or yellowing signals breakdown or contamination. Keeping all these factors in mind helps push quality assurance standards further.
Safety remains central. Synephrine Tartrate, like many active raw materials, brings risk if mishandled. Dust in the air can irritate eyes or the respiratory tract. Swallowing large quantities or skin contact over time may trigger mild irritation or, in more sensitive individuals, more severe chemical reactions. PPE isn’t optional in a chemical plant—gloves, safety goggles, and lab coats always stay in reach. Laboratories and production floors keep MSDS sheets handy with chemical hazard numbers on display. This compound does not self-ignite, nor does it carry explosive risk during ordinary handling, but combining it with strong oxidizers or acids in the wrong conditions can tip the scale. Flushing with water, storing in cool, dry places, and using proper disposal methods cut down potential problems. Consumer-facing usage, such as dietary or supplement addition, remains tightly regulated, guided by toxicology studies and dosage controls. My years in regulatory compliance taught me this: transparency and full documentation keep workplace injuries at bay and allow professionals to speak confidently about chemical safety.
Synephrine Tartrate behaves in a way anyone with laboratory experience will recognize. Its crystal form gives it a solid tactile presence and encourages even blending in mixture work. Dissolving in water, it leaves behind little residue and imparts a mild, slightly astringent taste that disappears in formulations or bulk blends. The chemical’s ability to act as a stimulant—the reason for its popularity in pre-workout powders—comes from the molecular arrangement, which influences physiological interaction. Mixologists in health supplement plants measure and blend by both molecular formula and bulk density to hit efficacy targets, adjusting for batch differences with each new shipment. Safety officers ensure only tiny, controlled doses find their way into any health product line. Pharmaceutical-grade Synephrine Tartrate undergoes rigorous third-party testing for contaminants before making its way into finished products, a process that echoes throughout safe chemical practice in any field.
Understanding the ins and outs of Synephrine Tartrate isn’t just academic. It means better protection in handling, sharper quality control, safer transportation, and compliance with constantly shifting chemical regulations. I’ve watched entire batches quarantined over minor inconsistencies—losses that could have been avoided with clearer specifications, tighter storage practices, and a focus on raw material sourcing. Those on the manufacturing floor appreciate material that’s consistent in grain size, color, and solubility—the little details that distinguish a reliable raw chemical supply chain from a risky one. In my own experience overseeing multiple batch audits, organizations that get ahead focus on documentation, on-site safety training, and regular supplier assessments. Through better education and open communication between suppliers, handlers, and end users, the industry keeps raising its bar, protecting both workers and downstream customers.
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