by Thermo Fisher Scientific
Designed with a versatile aminopropyl phase that gives excellent chromatographic properties in four modes: weak anion exchange, reversed phase, normal phase and HILIC.
Outstanding reproducibility for reversed phase, normal phase, ion exhange and HILIC
1.7 µm particle size columns can be used to improve speed and efficiency
| Vendor | Thermo Fisher Scientific | Pore size | 100 |
| Brand | Syncronis | Surface Area | 320 |
| Modifification | Silica/C18 | Carbon Load, % | 16.0 |
| Mode | Reversed-Phase | Endcapped | Yes |
| Particle Size | 5.0 | pH stability from | 2.0 |
| Length | 150 | pH stability to | 8.0 |
| Internal Diameter | 4.6 |
| Vendor | Brand | Mode | Modification | Int. diam. | Length | Particles | Pores | Price |
|---|---|---|---|---|---|---|---|---|
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 2.0 mm | 100 mm | 5.0 μm | 120 Å | 320.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 2.0 mm | 150 mm | 5.0 μm | 120 Å | 336.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 2.0 mm | 250 mm | 5.0 μm | 120 Å | 384.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 4.6 mm | 100 mm | 5.0 μm | 120 Å | 224.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 4.6 mm | 150 mm | 5.0 μm | 120 Å | 232.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 4.6 mm | 250 mm | 5.0 μm | 120 Å | 272.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 3.0 mm | 150 mm | 5.0 μm | 120 Å | 376.00 |
| Tokyo Chemical Industry | Kaseisorb LC ODS 2000 | Reversed-Phase | Silica/C18 | 3.0 mm | 250 mm | 5.0 μm | 120 Å | 408.00 |
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