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Hordenine Hydrochloride stands out as a chemical compound with both natural and synthetic roots, often discussed by researchers and professionals in the pharmaceutical, food supplement, and chemical industries. The product formula, C10H15NO·HCl, breaks down to a molecular weight of 201.7 g/mol, showing specificity in its basic chemical construction. In the lab and on the shelf, hordenine hydrochloride appears as a solid, most often as an off-white or pale crystalline powder, sometimes taking the form of fine flakes or compact pearls. This range gives producers flexibility in packaging and storage, while also making handling straightforward for those who work with bulk chemicals every day.
One of the first things users notice is its physical texture. In hand or under a scoop, Hordenine Hydrochloride doesn’t clump excessively and pours much like other similar raw material powders. It dissolves easily in water, creating a clear solution. The density sits around 1.05 g/cm³, giving some assurance of consistency when measuring out quantities for research or manufacturing—they don't have to guess as much about volume versus mass. In terms of storage longevity, this solid maintains stability under standard environmental conditions. Kept in a sealed, dry container at room temperature, it resists clumping and protects its crystalline structure. Under the microscope, its molecular structure reveals a benzylamine backbone, which contributes both to its relatively high stability and its compatibility with a range of other chemical agents.
Every time someone moves a product like Hordenine Hydrochloride across borders, the correct HS Code must appear in documentation. For this material, the code most often cited is 2922.19, falling under the category for amines and their derivatives—its clear categorization helps importers avoid confusion and customs delays. For companies navigating international transport, a detailed safety datasheet and accurate HS code work in tandem to safeguard shipments, reduce risks, and provide clear traceability.
On paper, Hordenine Hydrochloride seems uncomplicated, but its value lies in its balance of specific characteristics. The crystalline structure, maintained by strong hydrochloride bonds, means high purity is achievable with standard purification methods. This affects melting point, which commonly sits between 114°C and 116°C—useful for those needing precise thermal data for process engineering. Chemically, the hydrochloride form increases water solubility and simplifies formulation in both liquid and solid blend products. Once dissolved, the solution shows near-neutral pH, an advantage when compatibility with other raw materials is needed. Teams working in manufacturing then worry less about unwanted reactions or instability during blending. Across multiple batches, the compound’s uniform molecular weight and density reduce surprises on the factory floor.
People who handle chemical raw materials see safety as a practical concern, not just a checkbox. Hordenine Hydrochloride demands the usual vigilance: gloves, goggles, and dust masks are musts for direct handling. Though not among the most hazardous compounds, it can irritate eyes and skin on direct contact and cause harm if inhaled in powder form. For those transporting or storing larger amounts, proper ventilation and tightly sealed containers keep the risk to a minimum. The hazardous nature is manageable, provided staff respect industry-standard protocols. The compound’s status as a chemical raw material often brings additional local regulations, especially where its use overlaps with food, pharmaceutical, or supplement production. Chemists rely on updated Material Safety Data Sheets and regular training to keep everyone safe, particularly when equipment or storage conditions change.
From a practical standpoint, consistency remains the linchpin of every successful run in the lab or on the factory line. In my own experience working with both specialty and common chemical powders, Hordenine Hydrochloride’s reputation for stable quality stands up. Customers and partners expect repeatable results, whether they run milligram-scale research or ton-scale processing. Suppliers who track purity levels down to the decimal and ensure consistent density, structure, and physical form help users trust that every batch will meet expectations. This precision makes the difference between a smooth process and a failed one—nobody wants to see unexpected changes just because of a minor supplier variation.
Hordenine Hydrochloride’s various forms—powder, fine flakes, crystalline pearls—each bring practical benefits. Powders enable quick dissolution for solution preparations, key for lab staff on tight deadlines or production managers shipping out tens of liters at a time. Flakes and solid pearls, while less dusty, still break down easily when mixed with solvents, allowing for scalable solutions. Liquid forms, though less common, show up in intermediate manufacturing and specialty chemical synthesis, offering convenience where dosing with liquids streamlines formulation or direct injection. Technical workers value these choices, picking the form that best suits specific process steps, with each variant offering low waste and predictable behavior under standard temperatures and pressures.
Within regulated industries, clarity about a compound’s structure, properties, and safe handling never loses value. I’ve seen entire projects hit delays from uncertainty over raw material specs—a lesson in why full documentation for Hordenine Hydrochloride always gets top priority. User-friendly Certificates of Analysis and transparent data about density, structure, and physical form take the mystery out of chemical procurement. Companies that offer cradle-to-grave traceability, compliance information, and batch consistency win long-term trust from customers and supply chain partners. The ripple effect? Everyone from small labs to multinational firms can plan and scale without surprise risks, product recalls, or regulatory headaches—a practical advantage for anyone who deals in chemical innovation.
West Ujimqin Banner, Xilingol League, Inner Mongolia, China
