by Advanced Materials Technology
Fused-Core™ particle technology for hyper-fast and super-rugged HPLC columns
Stationary Phase Support
Bonded Phase
Maximum Pressure: 9,000 psi, 600 Bar
| Vendor | Advanced Materials Technology | pH stability from | 2.0 |
| Brand | Halo Phenyl-Hexyl | pH stability to | 9.0 |
| Modifification | Phenyl-Hexyl | Max Pressure | 8700 |
| Mode | Reversed-Phase | Surface Area | 150 |
| Particle Size | 2.7 | Carbon Load, % | 6.0 |
| Length | 50 | Endcapped | Yes |
| Internal Diameter | 2.1 | Operating Temperature | 60 |
| Pore size | 90 |
| 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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