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Product Part
Description:
Fully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
OUT OF STOCKFully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
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Product Part
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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Product Part
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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Product Part
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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Product Part
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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Product Part
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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Product Part
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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Product Part
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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Product Part
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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Product Part
Description:
Fully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
OUT OF STOCKFully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
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Product Part
Description:
Fully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
IN STOCKFully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
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Product Part
Description:
Fully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile:
OUT OF STOCKFully Porous Hybrid Particle Based Column Series Excellent stability and performance could be achieved under a wide range of LC conditions with Shim-pack Scepter™ LC columns, which are the next generation organic silica hybrid based columns. With different chemistry characteristics, Shim-pack Scepter columns are effective for method development/scouting with suitability for use in a wide variety of applications. With different particle sizes (1.9 μm, 3 μm, 5 μm) and different column dimensions, Shim-pack Scepter LC columns are fully scalable between UHPLC, HPLC and preparative LC making method transfer seamless between different laboratory instrumentation. Method Scouting Utilize excellent stability & performance under a wide range of LC conditions With excellent stability under a wide range of LC conditions, Shim-pack Scepter LC columns are effective for method scouting combining mobile phase pH and organic modifier. Comparison of Chromatograms using Gradient condition with Acetonitrile: