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Brand | EC |
Column Model | EC 250/4.6 NUCLEOSIL 300-5 C4 |
Length | 250 mm |
Inner Diameter | 4.6 mm |
Particle Size | 5 µm |
Particle Type | C4 |
Pore Size | 300 Å |
Material | Silica |
Chemistry | Octadecyl (C18) |
Maximum Pressure | 400 bar |
PH Range | 2-8 |
Temperature Range | up to 60°C |
Compatible Analytes | Hydrophobic compounds |
Application | Reversed-phase chromatography |
Recommended Flow Rate | 1-2 mL/min |
Features | High efficiency, excellent peak shapes, good reproducibility |
Suitable For | Analyzing complex samples in pharmaceutical, environmental, and food industries |
Packaging | 1 column per pack |
Warranty | Not specified |
FAQ
What is the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column is a high-performance liquid chromatography (HPLC) column designed for analytical and preparative applications. It features a length of 250 mm and an internal diameter of 4.6 mm.
What are the key features of the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column is packed with NUCLEOSIL 300-5 C4 material, which provides excellent chromatographic performance for the separation of a wide range of compounds. With a length of 250 mm and an internal diameter of 4.6 mm, this column is suitable for a variety of applications.
What are the benefits of using the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column offers high efficiency and resolution, allowing for the accurate and reliable separation of complex mixtures. It is compatible with a wide range of solvents and can be used for sample analysis in various industries, including pharmaceuticals, environmental testing, and research.
How can I optimize the performance of the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
To optimize the performance of the EC 250/4.6 NUCLEOSIL 300-5 C4 column, it is important to properly condition the column before use and follow the manufacturer's recommended guidelines for sample preparation and elution conditions. Regular maintenance and cleaning of the column can also help ensure consistent performance over time.
Are there any specific applications where the EC 250/4.6 NUCLEOSIL 300-5 C4 column excels?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column is well-suited for a wide range of applications, including the analysis of small molecules, peptides, proteins, and other biomolecules. It is particularly useful for the separation of hydrophobic compounds due to the C4 stationary phase, making it an ideal choice for pharmaceutical and biotechnology research.
The EC 250/4.6 NUCLEOSIL 300-5 C4 column is a high-performance liquid chromatography (HPLC) column designed for analytical and preparative applications. It features a length of 250 mm and an internal diameter of 4.6 mm.
What are the key features of the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column is packed with NUCLEOSIL 300-5 C4 material, which provides excellent chromatographic performance for the separation of a wide range of compounds. With a length of 250 mm and an internal diameter of 4.6 mm, this column is suitable for a variety of applications.
What are the benefits of using the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column offers high efficiency and resolution, allowing for the accurate and reliable separation of complex mixtures. It is compatible with a wide range of solvents and can be used for sample analysis in various industries, including pharmaceuticals, environmental testing, and research.
How can I optimize the performance of the EC 250/4.6 NUCLEOSIL 300-5 C4 column?
To optimize the performance of the EC 250/4.6 NUCLEOSIL 300-5 C4 column, it is important to properly condition the column before use and follow the manufacturer's recommended guidelines for sample preparation and elution conditions. Regular maintenance and cleaning of the column can also help ensure consistent performance over time.
Are there any specific applications where the EC 250/4.6 NUCLEOSIL 300-5 C4 column excels?
The EC 250/4.6 NUCLEOSIL 300-5 C4 column is well-suited for a wide range of applications, including the analysis of small molecules, peptides, proteins, and other biomolecules. It is particularly useful for the separation of hydrophobic compounds due to the C4 stationary phase, making it an ideal choice for pharmaceutical and biotechnology research.