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Name | Ethanol absolute for clinical diagnosis |
Category | Chemical reagent |
Purity | Absolute |
Application | Clinical diagnosis |
Form | Liquid |
Color | Colorless |
Odor | Characteristic |
Solubility | Soluble in water |
Storage Condition | Store at room temperature |
Shelf Life | 2 years |
Packaging | Glass bottle |
Manufacturer | Various |
Cas Number | 64-17-5 |
Molecular Formula | C2H6O |
Molar Mass | 46.07 g/mol |
Boiling Point | 78.37 °C |
Melting Point | -114.1 °C |
Density | 0.7893 g/cm³ |
Flash Point | 13 °C |
Risk Phrases | Flammable liquid |
FAQ
What is ethanol absolute and how is it used in clinical diagnosis?
Ethanol absolute, also known as absolute alcohol, is a type of alcohol that is free of any water content. It is commonly used in clinical diagnosis as a solvent for various reagents and solutions. Ethanol absolute is particularly useful in laboratory settings for the preparation of specimens for testing, as well as for the dilution of samples in various diagnostic tests.
What are the benefits of using ethanol absolute in clinical diagnosis?
One of the main benefits of using ethanol absolute in clinical diagnosis is its purity. Because it is free of water, ethanol absolute is less likely to introduce contaminants into samples or interfere with test results. Additionally, ethanol absolute evaporates quickly, making it ideal for use in procedures that require rapid drying. It is also readily available and easy to store, making it a convenient option for labs of all sizes.
How is ethanol absolute different from other types of alcohol used in clinical diagnosis?
Ethanol absolute differs from other types of alcohol used in clinical diagnosis, such as denatured alcohol or isopropyl alcohol, in its purity and lack of additives. Denatured alcohol, for example, has been chemically altered to make it unfit for consumption, while isopropyl alcohol is commonly used as a disinfectant. Ethanol absolute, on the other hand, is pure alcohol and is suitable for use in a variety of diagnostic tests without the risk of introducing contaminants.
What precautions should be taken when handling ethanol absolute in clinical diagnosis?
When handling ethanol absolute in clinical diagnosis, it is important to take certain precautions to ensure safety. Firstly, ethanol absolute is highly flammable and should be stored and used in a well-ventilated area away from sources of ignition. Additionally, proper personal protective equipment, such as gloves and goggles, should be worn when handling ethanol absolute to prevent skin and eye contact. Finally, spills of ethanol absolute should be cleaned up immediately to avoid accidents or exposure.
In what ways can ethanol absolute enhance the accuracy and reliability of clinical diagnosis?
Ethanol absolute plays a crucial role in enhancing the accuracy and reliability of clinical diagnosis in several ways. Firstly, its purity and lack of contaminants ensure that test results are not compromised by external factors. Additionally, ethanol absolute is often used as a solvent to dissolve substances that are being tested, allowing for more accurate measurements and readings. Its rapid evaporation also ensures that samples dry quickly, reducing the risk of contamination or interference with test results. Overall, the use of ethanol absolute in clinical diagnosis helps to ensure that tests are conducted with precision and consistency.
Ethanol absolute, also known as absolute alcohol, is a type of alcohol that is free of any water content. It is commonly used in clinical diagnosis as a solvent for various reagents and solutions. Ethanol absolute is particularly useful in laboratory settings for the preparation of specimens for testing, as well as for the dilution of samples in various diagnostic tests.
What are the benefits of using ethanol absolute in clinical diagnosis?
One of the main benefits of using ethanol absolute in clinical diagnosis is its purity. Because it is free of water, ethanol absolute is less likely to introduce contaminants into samples or interfere with test results. Additionally, ethanol absolute evaporates quickly, making it ideal for use in procedures that require rapid drying. It is also readily available and easy to store, making it a convenient option for labs of all sizes.
How is ethanol absolute different from other types of alcohol used in clinical diagnosis?
Ethanol absolute differs from other types of alcohol used in clinical diagnosis, such as denatured alcohol or isopropyl alcohol, in its purity and lack of additives. Denatured alcohol, for example, has been chemically altered to make it unfit for consumption, while isopropyl alcohol is commonly used as a disinfectant. Ethanol absolute, on the other hand, is pure alcohol and is suitable for use in a variety of diagnostic tests without the risk of introducing contaminants.
What precautions should be taken when handling ethanol absolute in clinical diagnosis?
When handling ethanol absolute in clinical diagnosis, it is important to take certain precautions to ensure safety. Firstly, ethanol absolute is highly flammable and should be stored and used in a well-ventilated area away from sources of ignition. Additionally, proper personal protective equipment, such as gloves and goggles, should be worn when handling ethanol absolute to prevent skin and eye contact. Finally, spills of ethanol absolute should be cleaned up immediately to avoid accidents or exposure.
In what ways can ethanol absolute enhance the accuracy and reliability of clinical diagnosis?
Ethanol absolute plays a crucial role in enhancing the accuracy and reliability of clinical diagnosis in several ways. Firstly, its purity and lack of contaminants ensure that test results are not compromised by external factors. Additionally, ethanol absolute is often used as a solvent to dissolve substances that are being tested, allowing for more accurate measurements and readings. Its rapid evaporation also ensures that samples dry quickly, reducing the risk of contamination or interference with test results. Overall, the use of ethanol absolute in clinical diagnosis helps to ensure that tests are conducted with precision and consistency.