Potassium Tetracyanonickelate(II) Hydrate: A Versatile Catalyst Precursor for Advanced Materials and Chemical Synthesis
Discover the key properties and applications of Potassium Tetracyanonickelate(II) Hydrate, a vital inorganic compound essential for advanced catalysis, material science, and various industrial processes. Explore its role as a precursor for high-performance catalysts.
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Potassium Tetracyanonickelate(II) Hydrate
As a leading supplier in China, we offer high-quality Potassium Tetracyanonickelate(II) Hydrate, a crucial inorganic compound characterized by its light yellow to orange crystalline powder form and exceptional purity (≥99.5%). This compound is a fundamental raw material in the synthesis of double metal catalysts and finds application in the plating of diamagnetic alloys. Its unique chemical structure makes it invaluable for various chemical synthesis and research endeavors.
- Explore the potential of inorganic catalyst synthesis with this versatile compound. We provide reliable access to materials essential for developing next-generation catalysts.
- Unlock advancements in material science by utilizing this as a key precursor. Its properties are well-suited for creating innovative materials with tailored functionalities.
- Understand the critical role of chemical precursors in industrial applications. This compound exemplifies the foundational elements required for advanced chemical manufacturing.
- Learn about the chemical synthesis pathways that rely on high-purity inorganic compounds. We ensure consistent quality for your research and production needs.
Advantages Offered
Catalysis Versatility
Its application as a precursor for double metal catalysts highlights its importance in catalysis research. We facilitate the exploration of new catalytic pathways through reliable supply.
Material Science Applications
This compound is crucial for plating diamagnetic alloys, showcasing its utility in material science and enabling the development of specialized materials.
Chemical Synthesis Foundation
As a fundamental chemical precursor, it underpins various chemical synthesis processes, contributing to innovation in the chemical industry.
Key Applications
Catalysis
Used as a key precursor for double metal catalysts, driving innovation in inorganic catalyst synthesis and various chemical transformations.
Material Science
Essential for plating diamagnetic alloys, contributing to advancements in material science and the creation of specialized metallic components.
Chemical Synthesis
Serves as a foundational building block in a wide array of chemical synthesis processes, supporting research and industrial production.
Electrochemistry
Explored for its potential as an electrode material in batteries, highlighting its role in energy materials research and development.