Description
Specifications Table
Product Name – AMINOGUANIDINE BICARBONATE
Quantity/Pack Size – 100 g, 500 g
Form – Powder
Grade – For Synthesis
Application – Chemical synthesis, reagent
Product Overview
AMINOGUANIDINE BICARBONATE is a high-purity chemical reagent designed for synthesis applications, offering consistent performance in laboratory settings. This white crystalline powder is synthesized under stringent quality controls to ensure ≥98% purity, making it a reliable choice for researchers and chemists. Its stable nature under standard storage conditions (cool, dry environment) ensures long-term usability without degradation. The compound is widely recognized for its role in organic synthesis, particularly in reactions requiring precise stoichiometry and minimal impurities. Its solubility in water and compatibility with common organic solvents further enhance its versatility in experimental workflows. Whether used as a standalone reagent or in combination with other chemicals, AMINOGUANIDINE BICARBONATE delivers reproducible results, reducing variability in experimental outcomes. The synthesis-grade designation guarantees adherence to rigorous specifications, making it suitable for demanding applications where purity and consistency are critical.
FAQs
1. What is the shelf life of AMINOGUANIDINE BICARBONATE?
The product remains stable for 24 months from the date of manufacture when stored in a cool, dry place in its original sealed packaging.
2. Is this compound compatible with aqueous solutions?
Yes, AMINOGUANIDINE BICARBONATE is soluble in water, allowing for easy integration into aqueous-based reactions.
3. Are there any known alternatives to this reagent?
Alternatives like hydrazine derivatives may be used in specific applications, but AMINOGUANIDINE BICARBONATE is preferred for its selective reactivity and stability.
4. How should I handle this chemical safely?
Use standard laboratory precautions: wear gloves, goggles, and a lab coat. Avoid inhalation and ensure proper ventilation during handling.
5. Can this be used in non-synthesis applications?
While primarily designed for synthesis, its properties may suit other controlled chemical processes, but validation is recommended.
