by Advanced Materials Technology
Separations on the RP-Amide bonded phase are influenced by both
moderately strong hydrophobic binding interaction and hydrogen
bonding with the embedded amide group. Analytes with hydrogen
bond donor characteristics will likely be more retained on the RP-Amide
phase than on the C18 phase. In general, acids will be retained more,
bases will be retained slightly less, and neutral analytes will be retained
about the same as on a C18 phase.
| Vendor | Advanced Materials Technology | Max Pressure | 9000 |
| Brand | Halo RP-Amide | Surface Area | 90 |
| Modifification | Silica/Amide | Carbon Load, % | 8.2 |
| Mode | Reversed-Phase | Endcapped | Yes |
| Particle Size | 2.7 | Operating Temperature | 60 |
| Length | 75 | pH stability from | 2.0 |
| Internal Diameter | 3.0 | pH stability to | 9.0 |
| 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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