Ytterbium Chloride Hydrate powder is a functional raw material specially designed for high-purity rare earth materials. With a purity of up to 99.999% (REO), it has excellent water solubility and reactivity. This makes it widely used in fields like optics, lasers, catalysis, and nanomaterials.
We provide Ytterbium Chloride Hydrate powder in various specifications, offering flexibility in moisture control, impurity standards, and packaging options tailored to customer needs. Our high-purity Ytterbium Chloride Hydrate powder ensures consistency and reliability in different research systems and industrial applications. Whether you are involved in laser material synthesis, nanomaterial production, or catalysis research, our powder supports your high-performance requirements.
Excellent water solubility
Fine powder for easy dispersion and reaction control
Customizable packaging
Suitable for advanced material synthesis, laser crystal doping and optical applications
Optical and laser materials: As a source of Yb³⁺ ions, used to prepare Yb-doped crystals, phosphors and optical glass
Rare earth coordination chemistry: Can be used to synthesize a variety of complexes for catalysis, electronic materials research, etc.
Nanomaterial synthesis: Participate in the preparation of Yb-based oxides, fluorides, graphene hybrid materials
Ceramic and glass modification: Improve the structure and properties of high-temperature ceramics and optical glass
We provide Certificate of Analysis (COA), Material Safety Data Sheet (MSDS) and other relevant reports for each batch of products. In addition, we also support third-party testing to enhance quality assurance.
Molecular formula: YbCl₃·6H₂O
Molecular weight: 373.41 g/mol
Appearance: White or slightly yellow crystalline powder, strong hygroscopicity
Density: about 2.4 g/cm³ (normal temperature)
Melting point: about 110 °C (decomposed after dehydration)
Solubility: easily soluble in water and ethanol, insoluble in ether
Hydration form: hexahydrate, stable in a dry and sealed environment
Thermal stability: dehydrated and decomposed into oxychlorides such as YbOCl during heating
Hygroscopicity: extremely strong, should be stored in a sealed and dry environment
Crystal structure: monoclinic or triclinic system (depending on conditions)
Inner packaging: Vacuum-sealed bag to protect against contamination and moisture.
Outer packaging: Carton or wooden box, depending on size and weight.
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