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Product Name | Formic Acid 85% for Analysis |
Concentration | 85% |
Chemical Formula | HCOOH |
CAS Number | 64-18-6 |
Molecular Weight | 46.03 g/mol |
Appearance | Colorless liquid |
Odor | Strong pungent odor |
Solubility | Miscible with water, soluble in most organic solvents |
Density | 1.22 g/cm3 |
Boiling Point | 100.8°C |
Melting Point | -1.5°C |
Flash Point | 69°C |
Storage | Store in a cool, dry, well-ventilated area away from incompatible substances |
Hazards | Corrosive, harmful if swallowed, causes skin irritation and serious eye damage |
Applications | Used in the production of leather, textiles, and in the pharmaceutical and pesticide industries |
Purity | Meets analytical specifications for ACS reagent grade |
Packaging | Available in various pack sizes including drums and containers |
FAQ
What is Formic Acid 85% used for in analysis?
Formic Acid 85% is commonly used in analysis as a reagent for sample preparation and extraction in various analytical techniques such as HPLC, GC, and mass spectrometry. It is also utilized in pH adjustment and as a preservative in analytical laboratories.
How does Formic Acid 85% enhance the analysis process?
Formic Acid 85% plays a crucial role in analysis by improving the separation and detection of compounds in complex mixtures. It helps in reducing peak tailing, enhancing resolution, and increasing sensitivity in analytical methods. Additionally, it aids in the stabilization of labile compounds during analysis.
Can Formic Acid 85% be used for quantitative analysis?
Yes, Formic Acid 85% can be used for quantitative analysis in various analytical techniques. It is especially effective for the analysis of organic compounds, peptides, and proteins due to its ability to improve signal-to-noise ratios and ionization efficiency.
What are the advantages of using Formic Acid 85% for analysis?
Some of the advantages of using Formic Acid 85% for analysis include its compatibility with a wide range of analytical instruments, its ability to improve peak shape and resolution, and its cost-effectiveness compared to other reagents. It is also readily available and easy to handle in the laboratory.
Are there any safety considerations when working with Formic Acid 85% in analysis?
While Formic Acid 85% is commonly used in analytical laboratories, it is essential to follow proper safety precautions when handling this reagent. This includes wearing appropriate personal protective equipment, working in a well-ventilated area, and being cautious of its corrosive nature. Additionally, proper storage and disposal procedures should be followed to ensure the safety of laboratory personnel and the environment.
Formic Acid 85% is commonly used in analysis as a reagent for sample preparation and extraction in various analytical techniques such as HPLC, GC, and mass spectrometry. It is also utilized in pH adjustment and as a preservative in analytical laboratories.
How does Formic Acid 85% enhance the analysis process?
Formic Acid 85% plays a crucial role in analysis by improving the separation and detection of compounds in complex mixtures. It helps in reducing peak tailing, enhancing resolution, and increasing sensitivity in analytical methods. Additionally, it aids in the stabilization of labile compounds during analysis.
Can Formic Acid 85% be used for quantitative analysis?
Yes, Formic Acid 85% can be used for quantitative analysis in various analytical techniques. It is especially effective for the analysis of organic compounds, peptides, and proteins due to its ability to improve signal-to-noise ratios and ionization efficiency.
What are the advantages of using Formic Acid 85% for analysis?
Some of the advantages of using Formic Acid 85% for analysis include its compatibility with a wide range of analytical instruments, its ability to improve peak shape and resolution, and its cost-effectiveness compared to other reagents. It is also readily available and easy to handle in the laboratory.
Are there any safety considerations when working with Formic Acid 85% in analysis?
While Formic Acid 85% is commonly used in analytical laboratories, it is essential to follow proper safety precautions when handling this reagent. This includes wearing appropriate personal protective equipment, working in a well-ventilated area, and being cautious of its corrosive nature. Additionally, proper storage and disposal procedures should be followed to ensure the safety of laboratory personnel and the environment.