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Product Name | Chloroform stabilized with ethanol |
Grade | Reag. USP, Ph. Eur. for analysis, ACS, ISO |
Purity | ≥99.5% |
Appearance | Clear, colorless liquid |
Odor | Characteristic odor |
Solubility | Freely soluble in alcohol, ether, and fixed oils; slightly soluble in water |
Melting Point | -63.5°C |
Boiling Point | 61.2°C |
Density | 1.483 g/cm3 |
Flash Point | 12°C |
CAS Number | 67-66-3 |
FAQ
What is chloroform stabilized with ethanol (Reag. USP, Ph. Eur.)?
Chloroform stabilized with ethanol is a high-quality chemical used for analysis in various applications, including research, pharmaceuticals, and industrial processes. It is compliant with the United States Pharmacopeia (USP), European Pharmacopoeia (Ph. Eur.), ACS, and ISO standards, ensuring its purity and reliability.
What are the key features of chloroform stabilized with ethanol?
-Chloroform stabilized with ethanol is a stabilized form of chloroform, ensuring its stability and purity during storage and use.
-It meets the rigorous quality standards set by USP, Ph. Eur., ACS, and ISO, guaranteeing its suitability for analytical purposes.
-The addition of ethanol helps prevent degradation of chloroform over time, maintaining its integrity and consistency.
-It is a versatile chemical with a wide range of applications in the laboratory, pharmaceutical, and industrial settings.
-The high purity of chloroform stabilized with ethanol ensures accurate and reliable results in analytical testing and research.
How can chloroform stabilized with ethanol be used in analytical processes?
-Chloroform stabilized with ethanol can be used as a solvent for extraction and separation processes in analytical chemistry.
-It is commonly used for the isolation of organic compounds from complex mixtures due to its low polarity and high solubility.
-It is an essential reagent for techniques such as liquid-liquid extraction, thin-layer chromatography, and spectroscopy.
-Its stability and purity make chloroform stabilized with ethanol an ideal choice for sensitive analytical methods requiring precise results.
What are the benefits of using chloroform stabilized with ethanol in laboratory research?
-Chloroform stabilized with ethanol offers researchers a reliable and consistent solvent for various analytical applications.
-Its high purity and stability ensure accurate and reproducible results in research experiments and testing.
-The compliance with USP, Ph. Eur., ACS, and ISO standards guarantees the quality and reliability of chloroform stabilized with ethanol.
-Researchers can trust the consistency and performance of this chemical in their laboratory work, leading to more reliable outcomes and data.
In conclusion, chloroform stabilized with ethanol is a high-quality chemical that meets the stringent standards set by regulatory bodies such as USP, Ph. Eur., ACS, and ISO. Its stability, purity, and versatility make it an essential reagent for analytical processes in research, pharmaceuticals, and industrial applications. Researchers can rely on the consistent performance of chloroform stabilized with ethanol for accurate and reliable results in their laboratory work.
Chloroform stabilized with ethanol is a high-quality chemical used for analysis in various applications, including research, pharmaceuticals, and industrial processes. It is compliant with the United States Pharmacopeia (USP), European Pharmacopoeia (Ph. Eur.), ACS, and ISO standards, ensuring its purity and reliability.
What are the key features of chloroform stabilized with ethanol?
-Chloroform stabilized with ethanol is a stabilized form of chloroform, ensuring its stability and purity during storage and use.
-It meets the rigorous quality standards set by USP, Ph. Eur., ACS, and ISO, guaranteeing its suitability for analytical purposes.
-The addition of ethanol helps prevent degradation of chloroform over time, maintaining its integrity and consistency.
-It is a versatile chemical with a wide range of applications in the laboratory, pharmaceutical, and industrial settings.
-The high purity of chloroform stabilized with ethanol ensures accurate and reliable results in analytical testing and research.
How can chloroform stabilized with ethanol be used in analytical processes?
-Chloroform stabilized with ethanol can be used as a solvent for extraction and separation processes in analytical chemistry.
-It is commonly used for the isolation of organic compounds from complex mixtures due to its low polarity and high solubility.
-It is an essential reagent for techniques such as liquid-liquid extraction, thin-layer chromatography, and spectroscopy.
-Its stability and purity make chloroform stabilized with ethanol an ideal choice for sensitive analytical methods requiring precise results.
What are the benefits of using chloroform stabilized with ethanol in laboratory research?
-Chloroform stabilized with ethanol offers researchers a reliable and consistent solvent for various analytical applications.
-Its high purity and stability ensure accurate and reproducible results in research experiments and testing.
-The compliance with USP, Ph. Eur., ACS, and ISO standards guarantees the quality and reliability of chloroform stabilized with ethanol.
-Researchers can trust the consistency and performance of this chemical in their laboratory work, leading to more reliable outcomes and data.
In conclusion, chloroform stabilized with ethanol is a high-quality chemical that meets the stringent standards set by regulatory bodies such as USP, Ph. Eur., ACS, and ISO. Its stability, purity, and versatility make it an essential reagent for analytical processes in research, pharmaceuticals, and industrial applications. Researchers can rely on the consistent performance of chloroform stabilized with ethanol for accurate and reliable results in their laboratory work.