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Name | Tetrahydrofuran stabilized with ~300 ppm of BHT (Reag. USP) for analysis, ACS product |
Purity | ACS grade |
Stabilizer | Butylated hydroxytoluene (BHT) |
Concentration | ~300 ppm |
Appearance | Clear, colorless liquid |
Boiling Point | 66°C |
Melting Point | -108.5°C |
Density | 0.887 g/ml |
Molecular Formula | C4H8O |
Molecular Weight | 72.11 g/mol |
CAS Number | 109-99-9 |
FAQ
What is the purpose of stabilizing Tetrahydrofuran with BHT (Reag. USP) for analysis,
ACS?
Tetrahydrofuran (THF) is a commonly used solvent in various chemical analyses and research applications. However, THF is known to be prone to peroxidation, which can lead to the formation of harmful by-products. By stabilizing THF with ~300 ppm of BHT (Butylated Hydroxytoluene), the peroxidation process is inhibited, ensuring the stability and reliability of the solvent for analytical purposes in accordance with ACS standards.
How does the addition of BHT (Reag. USP) affect the performance of Tetrahydrofuran in analytical applications?
The addition of BHT to Tetrahydrofuran helps to prevent the formation of peroxides, which can negatively impact the accuracy and reliability of analytical results. By stabilizing THF with BHT, analysts can have confidence in the consistency and stability of the solvent for a wide range of applications, ensuring accurate and reproducible results.
What are the benefits of using Tetrahydrofuran stabilized with BHT (Reag. USP) for analysis, ACS?
Some of the key benefits of using Tetrahydrofuran stabilized with BHT for analysis include improved stability and reliability of the solvent, enhanced accuracy of analytical results, and reduced risk of peroxide formation. Additionally, the use of stabilized THF can help prolong the shelf-life of the solvent, ensuring consistent performance over time.
How should Tetrahydrofuran stabilized with BHT (Reag. USP) be stored to maintain its stability?
To maintain the stability of Tetrahydrofuran stabilized with BHT, it is important to store the solvent in a cool, dry place away from heat sources and direct sunlight. Additionally, it is recommended to keep the container tightly sealed when not in use to prevent contamination and exposure to air. Following these storage guidelines can help preserve the stability and effectiveness of the stabilized THF for analytical applications.
Are there any safety precautions to be aware of when using Tetrahydrofuran stabilized with BHT (Reag. USP) for analysis, ACS?
Although Tetrahydrofuran stabilized with BHT is generally considered safe to use in analytical applications, it is important to follow standard laboratory safety practices when handling the solvent. This includes wearing appropriate personal protective equipment, working in a well-ventilated area, and avoiding direct contact with the skin or eyes. In the event of accidental exposure or ingestion, seek medical attention immediately.
Tetrahydrofuran (THF) is a commonly used solvent in various chemical analyses and research applications. However, THF is known to be prone to peroxidation, which can lead to the formation of harmful by-products. By stabilizing THF with ~300 ppm of BHT (Butylated Hydroxytoluene), the peroxidation process is inhibited, ensuring the stability and reliability of the solvent for analytical purposes in accordance with ACS standards.
How does the addition of BHT (Reag. USP) affect the performance of Tetrahydrofuran in analytical applications?
The addition of BHT to Tetrahydrofuran helps to prevent the formation of peroxides, which can negatively impact the accuracy and reliability of analytical results. By stabilizing THF with BHT, analysts can have confidence in the consistency and stability of the solvent for a wide range of applications, ensuring accurate and reproducible results.
What are the benefits of using Tetrahydrofuran stabilized with BHT (Reag. USP) for analysis, ACS?
Some of the key benefits of using Tetrahydrofuran stabilized with BHT for analysis include improved stability and reliability of the solvent, enhanced accuracy of analytical results, and reduced risk of peroxide formation. Additionally, the use of stabilized THF can help prolong the shelf-life of the solvent, ensuring consistent performance over time.
How should Tetrahydrofuran stabilized with BHT (Reag. USP) be stored to maintain its stability?
To maintain the stability of Tetrahydrofuran stabilized with BHT, it is important to store the solvent in a cool, dry place away from heat sources and direct sunlight. Additionally, it is recommended to keep the container tightly sealed when not in use to prevent contamination and exposure to air. Following these storage guidelines can help preserve the stability and effectiveness of the stabilized THF for analytical applications.
Are there any safety precautions to be aware of when using Tetrahydrofuran stabilized with BHT (Reag. USP) for analysis, ACS?
Although Tetrahydrofuran stabilized with BHT is generally considered safe to use in analytical applications, it is important to follow standard laboratory safety practices when handling the solvent. This includes wearing appropriate personal protective equipment, working in a well-ventilated area, and avoiding direct contact with the skin or eyes. In the event of accidental exposure or ingestion, seek medical attention immediately.