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Name | Triethylamine BioChemica |
Synonyms | TEA, N,N-Diethylethanamine |
CAS Number | 121-44-8 |
Molecular Formula | C6H15N |
Molecular Weight | 101.19 g/mol |
Appearance | Colorless liquid |
Odor | Fishy or ammonia-like |
Solubility | Miscible with water, ethanol, diethyl ether |
Boiling Point | 89.4 °C |
Melting Point | -114.6 °C |
Density | 0.726 g/cm3 |
Purity | Minimum 99% |
FAQ
What is Triethylamine BioChemica and how is it used in the field of
biochemistry?
Triethylamine BioChemica is a chemical compound that is commonly used in the field of biochemistry. It is a tertiary amine that is colorless and has a strong odor. Triethylamine is often used as a base in organic synthesis reactions, as it can catalyze reactions and act as a pH buffer. In the field of biochemistry, triethylamine is commonly used to neutralize acids and adjust the pH of solutions. It is also used in the purification of DNA and proteins, as well as in the synthesis of pharmaceuticals and other biochemical compounds.
What are the benefits of using Triethylamine BioChemica in biochemistry research?
One of the main benefits of using Triethylamine BioChemica in biochemistry research is its ability to act as a strong base. This makes it an ideal reagent for neutralizing acids and adjusting the pH of solutions in biochemical reactions. Triethylamine also has a low boiling point, which makes it easy to remove from reaction mixtures. Additionally, Triethylamine is relatively inexpensive and readily available, making it a cost-effective option for researchers conducting biochemistry studies.
How is Triethylamine BioChemica typically stored and handled in a laboratory setting?
Triethylamine BioChemica should be stored in a cool, dry place away from sources of heat and direct sunlight. It is important to keep the container tightly closed when not in use to prevent contamination and evaporation. When handling Triethylamine, it is important to wear appropriate personal protective equipment, such as gloves and safety goggles, to prevent skin and eye contact. In the event of accidental exposure, it is important to immediately wash the affected area with copious amounts of water.
Are there any safety considerations when working with Triethylamine BioChemica in a laboratory setting?
Triethylamine BioChemica is a corrosive and flammable liquid that can cause skin and eye irritation upon contact. It is important to handle Triethylamine with care and to always work in a well-ventilated area to prevent inhalation of fumes. In the event of accidental exposure, it is important to seek medical attention immediately. Additionally, it is important to never mix Triethylamine with oxidizing agents, as this can cause a violent reaction. Proper disposal of Triethylamine is also essential to prevent environmental contamination.
What are some common uses of Triethylamine BioChemica in the pharmaceutical industry?
In the pharmaceutical industry, Triethylamine BioChemica is commonly used as a reagent in the synthesis of pharmaceutical compounds. It is often used to catalyze reactions and adjust the pH of solutions during the synthesis process. Triethylamine is also used in the purification of drugs and other pharmaceutical compounds, as it can help remove impurities and byproducts from reaction mixtures. Additionally, Triethylamine is used as a stabilizer in the formulation of pharmaceutical products, as it can help prevent degradation and extend shelf life.
Triethylamine BioChemica is a chemical compound that is commonly used in the field of biochemistry. It is a tertiary amine that is colorless and has a strong odor. Triethylamine is often used as a base in organic synthesis reactions, as it can catalyze reactions and act as a pH buffer. In the field of biochemistry, triethylamine is commonly used to neutralize acids and adjust the pH of solutions. It is also used in the purification of DNA and proteins, as well as in the synthesis of pharmaceuticals and other biochemical compounds.
What are the benefits of using Triethylamine BioChemica in biochemistry research?
One of the main benefits of using Triethylamine BioChemica in biochemistry research is its ability to act as a strong base. This makes it an ideal reagent for neutralizing acids and adjusting the pH of solutions in biochemical reactions. Triethylamine also has a low boiling point, which makes it easy to remove from reaction mixtures. Additionally, Triethylamine is relatively inexpensive and readily available, making it a cost-effective option for researchers conducting biochemistry studies.
How is Triethylamine BioChemica typically stored and handled in a laboratory setting?
Triethylamine BioChemica should be stored in a cool, dry place away from sources of heat and direct sunlight. It is important to keep the container tightly closed when not in use to prevent contamination and evaporation. When handling Triethylamine, it is important to wear appropriate personal protective equipment, such as gloves and safety goggles, to prevent skin and eye contact. In the event of accidental exposure, it is important to immediately wash the affected area with copious amounts of water.
Are there any safety considerations when working with Triethylamine BioChemica in a laboratory setting?
Triethylamine BioChemica is a corrosive and flammable liquid that can cause skin and eye irritation upon contact. It is important to handle Triethylamine with care and to always work in a well-ventilated area to prevent inhalation of fumes. In the event of accidental exposure, it is important to seek medical attention immediately. Additionally, it is important to never mix Triethylamine with oxidizing agents, as this can cause a violent reaction. Proper disposal of Triethylamine is also essential to prevent environmental contamination.
What are some common uses of Triethylamine BioChemica in the pharmaceutical industry?
In the pharmaceutical industry, Triethylamine BioChemica is commonly used as a reagent in the synthesis of pharmaceutical compounds. It is often used to catalyze reactions and adjust the pH of solutions during the synthesis process. Triethylamine is also used in the purification of drugs and other pharmaceutical compounds, as it can help remove impurities and byproducts from reaction mixtures. Additionally, Triethylamine is used as a stabilizer in the formulation of pharmaceutical products, as it can help prevent degradation and extend shelf life.