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Column Type | EC HPLC column |
Brand | NUCLEOSIL |
Model | Anion II |
Length | 250 mm |
Diameter | 4 mm |
Particle Size | Not specified |
Particle Type | Silica-based |
Pore Size | Not specified |
Ligand Type | Anion exchange |
Ligand Density | Not specified |
Compatibility | Aqueous and organic solvents |
Recommended Flow Rate | 0.5 - 1.0 mL/min |
Recommended Temperature | 25°C |
Maximum Pressure | 400 bar |
PH Range | 2 - 8 |
Applications | Analysis of anions and charged compounds |
Packaging | Single column |
Storage Conditions | Room temperature in a dry place |
Additional Info | Stable and reliable for routine anion exchange applications |
FAQ
What is the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
The EC HPLC column EC 250/4 NUCLEOSIL Anion II is a high-performance liquid chromatography column specifically designed for anion exchange chromatography. It has a length of 250 mm and an internal diameter of 4 mm.
What are the key features of the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
The EC HPLC column EC 250/4 NUCLEOSIL Anion II is packed with NUCLEOSIL Anion II stationary phase, which provides high selectivity for anion exchange separations. It is suitable for a wide range of analytes and can be used in both analytical and preparative chromatography applications.
What are the benefits of using the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
The EC HPLC column EC 250/4 NUCLEOSIL Anion II offers excellent peak shape, resolution, and reproducibility, ensuring reliable and consistent results. Its high efficiency and selectivity make it ideal for separating and analyzing complex mixtures with ease.
How can I optimize the performance of the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
To optimize the performance of the EC HPLC column EC 250/4 NUCLEOSIL Anion II, it is important to properly equilibrate the column with the mobile phase before use. Additionally, regular column maintenance, such as flushing with clean solvent and following recommended operating conditions, can help maintain column performance and prolong its lifespan.
Is the EC HPLC column EC 250/4 NUCLEOSIL Anion II compatible with different types of detectors?
Yes, the EC HPLC column EC 250/4 NUCLEOSIL Anion II is compatible with various types of detectors, including UV/Vis, fluorescence, and conductivity detectors. This versatility allows for flexibility in detection methods and enables the analysis of a wide range of compounds.
The EC HPLC column EC 250/4 NUCLEOSIL Anion II is a high-performance liquid chromatography column specifically designed for anion exchange chromatography. It has a length of 250 mm and an internal diameter of 4 mm.
What are the key features of the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
The EC HPLC column EC 250/4 NUCLEOSIL Anion II is packed with NUCLEOSIL Anion II stationary phase, which provides high selectivity for anion exchange separations. It is suitable for a wide range of analytes and can be used in both analytical and preparative chromatography applications.
What are the benefits of using the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
The EC HPLC column EC 250/4 NUCLEOSIL Anion II offers excellent peak shape, resolution, and reproducibility, ensuring reliable and consistent results. Its high efficiency and selectivity make it ideal for separating and analyzing complex mixtures with ease.
How can I optimize the performance of the EC HPLC column EC 250/4 NUCLEOSIL Anion II?
To optimize the performance of the EC HPLC column EC 250/4 NUCLEOSIL Anion II, it is important to properly equilibrate the column with the mobile phase before use. Additionally, regular column maintenance, such as flushing with clean solvent and following recommended operating conditions, can help maintain column performance and prolong its lifespan.
Is the EC HPLC column EC 250/4 NUCLEOSIL Anion II compatible with different types of detectors?
Yes, the EC HPLC column EC 250/4 NUCLEOSIL Anion II is compatible with various types of detectors, including UV/Vis, fluorescence, and conductivity detectors. This versatility allows for flexibility in detection methods and enables the analysis of a wide range of compounds.