Description
Specifications Table
Product Name – Cupric Acetate Monohydrate
Quantity/Pack Size – 250 g
Form – Crystalline Powder
Grade – AR/ACS
Application – Chemical synthesis, analytical reagent, catalyst
Product Overview
Cupric Acetate Monohydrate 99% AR/ACS is a high-purity chemical compound widely used in laboratory settings for its reliable performance in chemical synthesis, analytical testing, and catalytic applications. This crystalline powder form ensures easy handling and precise measurement, making it ideal for experiments requiring accurate reagent concentrations. The AR (Analytical Reagent) and ACS (American Chemical Society) grades guarantee minimal impurities, ensuring consistent results in qualitative and quantitative analysis. Its stability under standard lab conditions further enhances its utility in various chemical processes. Whether used as a reagent, catalyst, or precursor, this compound maintains high solubility in water and organic solvents, facilitating seamless integration into diverse experimental protocols. The monohydrate form provides an optimal balance of reactivity and shelf-life, making it a preferred choice for researchers and chemists seeking dependable performance.
FAQs
1. What is the solubility of Cupric Acetate Monohydrate in water?
Cupric Acetate Monohydrate is highly soluble in water, forming a blue solution at room temperature.
2. Is this compound compatible with organic solvents?
Yes, it exhibits good solubility in common organic solvents like ethanol and methanol, depending on the application requirements.
3. Are there any storage precautions for this chemical?
Store in a cool, dry place in tightly sealed containers to prevent moisture absorption and degradation.
4. What alternatives can be used if Cupric Acetate Monohydrate is unavailable?
Cupric sulfate or other copper(II) salts may serve as alternatives, though their reactivity and solubility may differ.
5. How does the AR/ACS grade differ from technical-grade Cupric Acetate?
The AR/ACS grade ensures higher purity with stricter impurity limits, making it suitable for analytical and research applications.
