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Bio LC columns
Product Listing
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
8.0×30 mm (Guard Column) for 227-31010-04 and 227-31010-05
OUT OF STOCK8.0×30 mm (Guard Column) for 227-31010-04 and 227-31010-05
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
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Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
-
Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
-
Description:
With different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.
OUT OF STOCKWith different pore sizes, Shim-pack Bio Diol LC columns are effective for analysis of aggregates and fragments of mAb, oligonucleotides and carbohydrates. By reducing the particle size from 5μm to 2μm, the resolution between aggregates and monomers was greatly improved. Furthermore, by reducing the column length from 300mm to 150mm using a 2μm particle, 50% less run time was achieved, while maintaining resolution as compared to the original method that used a 5μm, 4.6 × 300mm column.