Basic cupric chloride is a green crystalline solid exhibiting an orthorhombic crystal structure. It demonstrates amphoteric properties, reacting with both acids and strong bases. This thermally stable compound decomposes above 300°C into copper oxide, hydrochloric acid, and water. Characterized by low water solubility (Ksp ~10⁻²⁰), it acts as a controlled copper ion source.
Basic copper chloride is a naturally occurring mineral (atacamite) and industrially synthesized compound. It forms as a stable corrosion product on copper alloys in marine environments and serves as a non-toxic alternative to traditional copper-based pesticides. This green crystalline solid exhibits a unique layered structure, enabling controlled ion release.
Cupric Chloride Basic is a synthetic inorganic compound combining copper, chloride, and hydroxide ions. Produced via controlled precipitation or hydrothermal methods, it exhibits a layered crystalline structure with high thermal stability and low solubility in water. This unique architecture enables efficient ion exchange and intercalation chemistry.
Dicopper chloride trihydroxide is a naturally occurring mineral, atacamite, characterized by its unique layered crystal structure featuring copper-oxygen-chlorine frameworks. Unlike synthetic analogues, its natural formation involves complex geochemical processes, resulting in distinctive orthorhombic crystals.
Copper chloride basic fine particles feature precisely controlled sub-micron particle size and narrow size distribution, maximizing surface area for enhanced reactivity. Engineered through advanced precipitation techniques, these particles exhibit exceptional homogeneity and crystallinity.
High-purity basic copper chloride is a meticulously refined compound with minimal metallic impurities, ensuring superior performance in advanced applications. Its controlled synthesis yields uniform particle size and crystalline structure, enhancing reactivity and consistency.
