For professionals working with chemicals, a thorough understanding of their properties and safety profiles is non-negotiable. 1,4-Diaminobutane Dihydrochloride (CAS 333-93-7) is one such compound that warrants careful consideration regarding its characteristics and safe handling procedures.

Physically, 1,4-Diaminobutane Dihydrochloride is typically described as a white crystalline powder. This appearance is consistent across many suppliers and reflects its solid state under standard conditions. Its molecular formula, C4H14Cl2N2, indicates the presence of two hydrochloride salt groups attached to a butane diamine structure. This ionic nature contributes to its solubility characteristics, often being readily soluble in water, which is advantageous for many laboratory applications.

Chemically, the compound exhibits a high assay, with purity levels frequently specified at ≥98.0%. This high purity is critical for its use in sensitive applications like organic synthesis and biochemical research, where even minor contaminants can alter reaction outcomes or biological responses. When purchasing, ensuring this assay specification is met is a primary concern for research scientists and procurement managers.

Safety is a paramount concern when handling any chemical. While specific toxicity data can vary, it is generally recognized that 1,4-Diaminobutane Dihydrochloride can be an irritant to the skin and eyes. Furthermore, some sources suggest it may have occupational health implications if not handled with appropriate care. Standard laboratory safety protocols should always be followed. This includes wearing suitable personal protective equipment (PPE) such as gloves, eye protection, and laboratory coats. Working in a well-ventilated area or under a fume hood is also recommended, especially when handling powders.

For companies looking to buy this chemical, it’s crucial to source it from reputable manufacturers and suppliers who provide comprehensive safety data sheets (SDS). These documents detail potential hazards, first-aid measures, firefighting procedures, and proper storage and disposal guidelines. Understanding these aspects ensures that your team can use 1,4-Diaminobutane Dihydrochloride safely and effectively, whether for large-scale synthesis or small-scale research projects.

By familiarizing yourself with the physical and chemical properties, alongside adhering strictly to safety recommendations, you can confidently procure and utilize 1,4-Diaminobutane Dihydrochloride for your demanding applications.