1H-Imidazole-4-propanol, beta-amino-, dihydrochloride, (S)-(9CI) finds its place among specialty chemicals with unique molecular features. Chemists value this compound for its dual functionality—melding the properties of an imidazole group with an amino-propanol backbone. This combination leads to a compound notable for its reactivity, solubility, and ability to participate in hydrogen bonding. For anyone working in pharmaceutical or chemical synthesis, tools like this provide essential building blocks with a chiral center, positioning the molecule for enantioselective synthesis. Its role as a raw material in research and small-scale production is built on these reliable features.
Experience in chemical laboratories shows that 1H-Imidazole-4-propanol, beta-amino-, dihydrochloride, (S)-(9CI) serves multiple purposes, ranging from intermediate synthesis in peptide chemistry to hand-on applications in drug development. Thanks to its structure, this compound integrates well into reaction schemes that need an imidazole ring for histidine analogues or enantioselective modifications. Chemical suppliers often provide this compound in bulk, listing it in sectors including life sciences, pharmaceuticals, and fine chemicals. Demand spikes wherever high-purity, well-defined chiral materials make a difference, as even minute changes in a molecule’s 3D structure change results.
This compound displays the typical characteristics of crystalline hydrochloride salts. By touch, its form resembles off-white to pale yellow flakes, though manufacturers sometimes process it into powders or small pearls to suit transportation and storage requirements. Bulk quantities remain stable under dry, controlled environments. The dihydrochloride nature pushes up water solubility, and the substance, once exposed to ambient humidity, shows early deliquescence—absorbing moisture and clumping if left unchecked. As a solid, it stays free-flowing at room temperature and does not exhibit significant dusting, so workplace management needs regular, but not excessive, attention regarding chemical handling.
This molecule carries a formula of C6H13Cl2N3O. With a molecular weight that lands just above 214 g/mol, the balance between the imidazole backbone and added functional groups points toward manageable densities for most laboratory uses. In measuring density, values tend to hover around 1.5 g/cm³, a figure that matches the general expectation for hydrochloride salt forms in this molecular weight range. Solutions prepare easily, dissolving in water with little agitation, and produce clear liquids at moderate concentrations.
Sourcing options include solid crystalline material, free-flowing powder, and, less often, pre-made aqueous solution. In solid form, it packs efficiently with low static or caking. The compound does not tend to clump, so weighing and dispensing remain straightforward. Conversion to solution form suits applications demanding rapid mixing or standardized concentrations; these stock solutions usually ship in liter bottles, clearly marked for laboratory use. Scientists handling this material can rely on vacuum drying to recover pure product from solution, since the compound crystallizes out well.
International movement of 1H-Imidazole-4-propanol, beta-amino-, dihydrochloride, (S)-(9CI) uses HS Code 29332990, which covers heterocyclic compounds with nitrogen hetero-atoms only. This designation places it in a category common to organic chemical exports and imports. Customs officers expect proper packaging, clear documentation of molecular formula and gross weight, and notification of any existing shelf-life agreements. Companies shipping or storing this substance often note it as a laboratory chemical.
No one can ignore risk when handling organic salts, especially with hydrochloride counter-ions present. Coming in contact with mucous membranes may irritate; inhaling dust or direct skin exposure in sensitive individuals produces downward discomfort, so gloves and laboratory coats stay standard. While acute toxicity remains low, the compound always deserves careful labeling and safe chemical storage—separate from alkalies and oxidizing agents, both of which may degrade the material or provoke unwanted reactions. Disposal procedures for non-used quantities match those for non-volatile organic hydrochlorides, involving collection into dedicated containers and handover to certified waste processors. Real-world experience shows that storing the compound in dry, cool spaces cuts down on spoilage, keeping raw material loss to a minimum.
As with most imidazole derivatives, risk factors increase when quantities stack up or exposure gets prolonged. Acute exposure causes irritation, but chronic data often lacks, pushing anyone involved to work defensively. Standard first aid covers accidental ingestion, inhalation, or eye contact, with medical support always within reach. Chemical hazard categories remain moderate, so companies working with industrial or kilo quantities provide automotive-grade ventilation and eye-wash facilities within reach. The safety datasheet (SDS) should always take center stage in any lab setting handling this raw material.
Experience on the bench points to several practical steps for sustainable use of 1H-Imidazole-4-propanol, beta-amino-, dihydrochloride, (S)-(9CI). Careful batch inventory, date-marked containers, and periodic review of expiration dates prevent accidental use of degraded material. Switching to closed-system transfers in kilo labs keeps dust levels negligible, while single-use protective equipment shields workers against possible exposure. In education labs, limiting vial size and mounting well-marked chemical fume hoods ensures even novice researchers remain safe. Wherever possible, sharing risk assessments and best practices between production and research teams strengthens company-wide safety efforts. Environmental sustainability calls for responsible waste segregation, recycling of suitable packaging, and avoidance of prolonged open-air exposure to cut down on evaporation losses and maintain raw material integrity over time.
Every specification sheet covers molecular formula (C6H13Cl2N3O), molecular weight (about 214 g/mol), density (~1.5 g/cm³), appearance (white to light yellow solid or powder), solubility (fully water-soluble), and purity (generally available at 97%+ for research applications). Bulk containers often mark HS Code 29332990 for customs and warehouse use. Select lots come with full chromatographic and analytical documentation on request. Properly managed, this compound lends itself to reliable use in both small-scale and industrial chemical operations.
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