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Name | N,N-Dimethylformamide |
Type | Solvent |
Purity | ACS Grade |
Form | Liquid |
Appearance | Colorless |
CAS Number | 68-12-2 |
UV Absorbance | Suitable for UV spectroscopy |
IR Spectrum | Suitable for IR spectroscopy |
HPLC Grade | Yes |
GPC Grade | Yes |
Specific Gravity | 0.944 g/mL |
Boiling Point | 152-153°C |
Melting Point | -61°C |
Flash Point | 57°C |
Density | 0.944 g/cm3 |
Refractive Index | n20/D 1.428(lit.) |
Water Content | ≤0.03% |
Residue After Evaporation | ≤0.0005% |
Storage | Store in a cool, dry place away from light |
Solubility | Miscible with water, ethanol, ether, benzene |
FAQ
What is N,N-Dimethylformamide (DMF) and what are its primary applications in UV, IR, HPLC,
GPC, and ACS analysis?
DMF is a high-quality solvent known for its versatility and effectiveness in various analytical techniques such as UV, IR, HPLC, GPC, and ACS. It is widely used in these applications due to its ability to dissolve a wide range of organic and inorganic compounds, making it an essential tool for researchers and scientists in the field.
What are some key features of N,N-Dimethylformamide (DMF) that make it a preferred solvent for UV, IR, HPLC, GPC, and ACS analysis?
DMF offers several key features that make it a preferred solvent for UV, IR, HPLC, GPC, and ACS analysis. These include its high solubility, low boiling point, low viscosity, and high thermal stability, which ensure accurate and reproducible results in various analytical techniques. Additionally, DMF is non-toxic, non-flammable, and has a low evaporation rate, making it a safe and efficient solvent for laboratory use.
How is N,N-Dimethylformamide (DMF) typically used in UV, IR, HPLC, GPC, and ACS analysis?
In UV and IR analysis, DMF is used as a solvent to dissolve samples for spectroscopic measurements, allowing researchers to analyze the absorbance or emission of light by different compounds. In HPLC and GPC analysis, DMF is commonly utilized as a mobile phase in chromatographic separations, enabling the separation and quantification of components within a mixture. In ACS analysis, DMF is employed as a solvent for various chemical reactions, facilitating the synthesis and characterization of organic and inorganic compounds.
What are the advantages of using N,N-Dimethylformamide (DMF) over other solvents in UV, IR, HPLC, GPC, and ACS analysis?
One of the main advantages of using DMF over other solvents in UV, IR, HPLC, GPC, and ACS analysis is its versatility and compatibility with a wide range of compounds. DMF can dissolve both polar and non-polar substances, making it a suitable solvent for different types of samples. Additionally, DMF is chemically stable and inert, which minimizes the risk of interference with analytical measurements and ensures the accuracy of results. Moreover, DMF is relatively easy to handle and dispose of, providing a convenient and efficient solution for laboratory applications.
How should N,N-Dimethylformamide (DMF) be stored and handled to ensure optimal performance in UV, IR, HPLC, GPC, and ACS analysis?
DMF should be stored in a cool, dry place away from direct sunlight and sources of heat to prevent degradation and contamination. It is important to seal the container tightly after each use and avoid exposing DMF to air for prolonged periods to minimize evaporation and moisture absorption. When handling DMF, proper personal protective equipment should be worn, including gloves, goggles, and a lab coat, to prevent skin contact and inhalation of fumes. Spills should be promptly cleaned up with absorbent materials and disposed of according to local regulations. By following these storage and handling guidelines, researchers can ensure the optimal performance of DMF in UV, IR, HPLC, GPC, and ACS analysis.
DMF is a high-quality solvent known for its versatility and effectiveness in various analytical techniques such as UV, IR, HPLC, GPC, and ACS. It is widely used in these applications due to its ability to dissolve a wide range of organic and inorganic compounds, making it an essential tool for researchers and scientists in the field.
What are some key features of N,N-Dimethylformamide (DMF) that make it a preferred solvent for UV, IR, HPLC, GPC, and ACS analysis?
DMF offers several key features that make it a preferred solvent for UV, IR, HPLC, GPC, and ACS analysis. These include its high solubility, low boiling point, low viscosity, and high thermal stability, which ensure accurate and reproducible results in various analytical techniques. Additionally, DMF is non-toxic, non-flammable, and has a low evaporation rate, making it a safe and efficient solvent for laboratory use.
How is N,N-Dimethylformamide (DMF) typically used in UV, IR, HPLC, GPC, and ACS analysis?
In UV and IR analysis, DMF is used as a solvent to dissolve samples for spectroscopic measurements, allowing researchers to analyze the absorbance or emission of light by different compounds. In HPLC and GPC analysis, DMF is commonly utilized as a mobile phase in chromatographic separations, enabling the separation and quantification of components within a mixture. In ACS analysis, DMF is employed as a solvent for various chemical reactions, facilitating the synthesis and characterization of organic and inorganic compounds.
What are the advantages of using N,N-Dimethylformamide (DMF) over other solvents in UV, IR, HPLC, GPC, and ACS analysis?
One of the main advantages of using DMF over other solvents in UV, IR, HPLC, GPC, and ACS analysis is its versatility and compatibility with a wide range of compounds. DMF can dissolve both polar and non-polar substances, making it a suitable solvent for different types of samples. Additionally, DMF is chemically stable and inert, which minimizes the risk of interference with analytical measurements and ensures the accuracy of results. Moreover, DMF is relatively easy to handle and dispose of, providing a convenient and efficient solution for laboratory applications.
How should N,N-Dimethylformamide (DMF) be stored and handled to ensure optimal performance in UV, IR, HPLC, GPC, and ACS analysis?
DMF should be stored in a cool, dry place away from direct sunlight and sources of heat to prevent degradation and contamination. It is important to seal the container tightly after each use and avoid exposing DMF to air for prolonged periods to minimize evaporation and moisture absorption. When handling DMF, proper personal protective equipment should be worn, including gloves, goggles, and a lab coat, to prevent skin contact and inhalation of fumes. Spills should be promptly cleaned up with absorbent materials and disposed of according to local regulations. By following these storage and handling guidelines, researchers can ensure the optimal performance of DMF in UV, IR, HPLC, GPC, and ACS analysis.