Learn More
Thermo Scientific™ Syncronis™ Amino HPLC Columns
Maximize liquid chromatography reproducibility and laboratory productivity using Thermo Scientific™ Syncronis™ Amino LC Columns.
3359.38 NOK - 12218.86 NOK
Specifications
Max. Pressure | 5800 psi (400 bar) |
---|---|
pH | 2 to 8 |
Pore Size | 100 Å |
Surface Area | 320 m²/g |
Temperature | 60°C |
Product Code | Brand | Length (Metric) | Diameter (Metric) | Particle Size | Price | Quantity & Availability | |||
---|---|---|---|---|---|---|---|---|---|
Product Code | Brand | Length (Metric) | Diameter (Metric) | Particle Size | Price | Quantity & Availability | |||
11859382
|
Thermo Scientific™
97705-103030 |
100 mm | 3 mm | 5 μm | N/A | ||||
11889382
|
Thermo Scientific™
97705-152130 |
150 mm | 2.1 mm | 5 μm |
12046.03 NOK
Each |
Estimated Shipment: 09-12-2024
Log in to see stock. |
|||
11899382
|
Thermo Scientific™
97705-153030 |
150 mm | 3 mm | 5 μm | N/A | ||||
11809392
|
Thermo Scientific™
97705-154030 |
150 mm | 4 mm | 5 μm | N/A | ||||
11819392
|
Thermo Scientific™
97705-154630 |
150 mm | 4.6 mm | 5 μm |
10640.22 NOK
Each |
Estimated Shipment: 13-01-2025
Log in to see stock. |
|||
11849392
|
Thermo Scientific™
97705-254030 |
250 mm | 4 mm | 5 μm | N/A | ||||
11859392
|
Thermo Scientific™
97705-254630 |
250 mm | 4.6 mm | 5 μm |
11236.07 NOK
Each |
Estimated Shipment: 05-12-2024
Log in to see stock. |
|||
11849372
|
Thermo Scientific™
97702-102130 |
100 mm | 2.1 mm | 1.7 μm |
12218.86 NOK
Each |
Estimated Shipment: 09-12-2024
Log in to see stock. |
|||
11819372
|
Thermo Scientific™
97702-052130 |
50 mm | 2.1 mm | 1.7 μm |
12218.86 NOK
Each |
Estimated Shipment: 09-12-2024
Log in to see stock. |
|||
13403979
|
Thermo Scientific™
97703-154630 |
150 mm | 4.6 mm | 3 μm | N/A | ||||
11504655
|
Thermo Scientific™
97705-014001 |
10 mm | 4 mm | 5 μm |
5581.65 NOK
Pack of 4 |
In Stock
Log in to see stock. |
|||
11594645
|
Thermo Scientific™
97705-013001 |
10 mm | 3 mm | 5 μm | N/A | ||||
11584645
|
Thermo Scientific™
97705-012101 |
10 mm | 2.1 mm | 5 μm | N/A | ||||
Description
Improve the consistency and reliability of your liquid chromatography (LC) separations with Thermo Scientific™ Syncronis™ Amino LC Columns. Manufactured and rigorously tested in ISO 9000 facilities, these columns are designed to meet a range of analytical needs including fast method development, quantitative analysis and quality control.
High surface area silica, dense stationary phase coverage and double end-capping minimize secondary interactions and ensure reproducible high-resolution separations.Highly Reproducible Separations
- Rigorously tested stationary phase bonded to the highest quality silica ensures consistent, predictable LC performance.
Excellent Peak Shapes for Enhanced Resolution and Sensitivity
- Dense surface coverage of silica minimizes secondary interactions and peak tailing
- Double endcapped for extra surface coverage
Exceptional Column-to-Column Consistency
- Manufactured, packed and tested in ISO-9000-accredited facilities
- Every column individually tested to meet stringent retention, efficiency, and peak symmetry specifications
- Enhanced automated packing process
Excellent Performance in Four Modes
- Aminopropyl phase performs well in reversed phase, normal phase, weak ion exchange and HILIC modes
Available in Three Particle Sizes
- 1.7μm for rapid ultrahigh-performance LC (UHPLC) separations
- 3μm and 5μm for more traditional HPLC analysis
Specifications
5800 psi (400 bar) | |
100 Å | |
60°C | |
Amino (NH2) | |
4% | |
Yes |
2 to 8 | |
320 m²/g | |
L8 | |
Spherical, Fully Porous, Ultrapure Silica | |
Mixed Mode | |
Reversed Phase, Normal Phase, Ion Exchange, HILIC |
Limited warranty period: Subject to all warranty requirements and exclusions set out in our Terms and Conditions of Sale, this product is warranted from the date we ship the product and for ninety (90) days thereafter. Disclaimer to internal research use restriction: Any restrictions on the purchaser to utilize the product(s) for internal research purposes only does not apply to the product(s) on the web pages associated with this statement.