Description
Specifications Table
Product Name – Ammonium Formate 97% Extra Pure
Quantity/Pack Size – 250 g, 500 g
Form – Crystalline Powder
Grade – Extra Pure
Application – Analytical Reagent, Buffer Preparation, Organic Synthesis
Product Overview
Ammonium Formate 97% Extra Pure is a high-grade crystalline powder designed for demanding laboratory applications. Its extra pure formulation ensures minimal impurities, making it ideal for analytical procedures, buffer preparation, and organic synthesis. The compound’s stable chemical structure provides reliable and reproducible results, critical for research and experimental accuracy. With a purity level of 97%, this reagent meets stringent quality standards, offering consistency in performance across various protocols. Its fine crystalline form dissolves efficiently, facilitating quick and uniform mixing in solutions. Whether used as a reducing agent or in chromatographic applications, this product delivers precision and dependability, supporting high-standards in laboratory workflows.
FAQs
1. What is the shelf life of Ammonium Formate 97% Extra Pure?
When stored in a cool, dry place in its original sealed packaging, this product retains its purity and efficacy for up to 2 years from the date of manufacture.
2. Is this product compatible with aqueous solutions?
Yes, Ammonium Formate 97% Extra Pure dissolves readily in water, making it suitable for preparing aqueous buffers and reagents.
3. Are there any alternatives to Ammonium Formate for similar applications?
Alternatives like Ammonium Acetate or Formic Acid may be used depending on the specific reaction requirements, but purity and compatibility should be verified.
4. How should this product be stored to maintain its quality?
Store in an airtight container away from moisture, heat, and incompatible substances to prevent degradation or contamination.
5. Can this grade be used in HPLC or mass spectrometry?
Yes, the extra pure grade is suitable for high-performance liquid chromatography (HPLC) and mass spectrometry applications due to its low impurity profile.
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