Thermo Scientific™

µPAC™ Neo HPLC Columns

Catalog number: COL-CAPHTNEOB
Technical SupportCustomer Service
µPAC™ Neo HPLC Columns
µPAC™ Neo HPLC Columns
µPAC™ Neo HPLC Columns
µPAC™ Neo HPLC Columns
µPAC™ Neo HPLC Columns
µPAC™ Neo HPLC Columns
Thermo Scientific™

µPAC™ Neo HPLC Columns

Catalog number: COL-CAPHTNEOB
Technical SupportCustomer Service

Learn more about your proteome samples with Thermo Scientific™ µPAC™ Neo HPLC columns. Our µPAC Neo column line offers higher resolution than the previous generation of µPAC columns, ensuring that you can extract the maximum amount of information from highly complex samples using low-flow chromatography. Column installation is simple and reliable with Thermo Scientific™ nanoViper™ Fingertight Fittings.


The µPAC Neo column range is the ideal choice for a variety of proteomics experiments, including fast label-free quantitation, comprehensive identification, and single cell analysis.

 
Catalog Number
COL-CAPHTNEOB
Unit Size
Each
Description
5.5 cm High Throughput µPAC™ Neo HPLC Column
Price (USD)
Price: 2,250.00
Your Price:
Availability
-
Full specifications
Quantity
Flow Rate0.1 to 2.5 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity42%
Temperature60°C
Stationary PhaseC18
DimensionsCross Section: 75 x 3 μm
Packing MaterialSilicon Chip
Column TypeRectangular Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description5.5 cm High Throughput µPAC™ Neo HPLC Column
Bed Length5.5 cm
Bed Width1850 µm
Interpillar Distance2 µm
Pillar Length25 μm
Unit SizeEach
Catalog Number
COL-LOLO050NEOB
Unit Size
Each
Description
50 cm Low-Load µPAC™ Neo HPLC Column
Price (USD)
Price: 2,500.00
Your Price:
Availability
-
Full specifications
Quantity
Flow Rate0.1 to 0.75 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity59%
Temperature60°C
Stationary PhaseC18
Packing MaterialSilicon Chip
Column TypeCylindrical Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description50 cm Low-Load µPAC™ Neo HPLC Column
Bed Length50 cm
Bed Width180 µm
Interpillar Distance1.25 µm
Pillar Diameter2.5 µm
Pillar Length30 µm
Unit SizeEach
Catalog Number
COL-NANO050NEOB
Unit Size
Each
Description
50 cm µPAC™ Neo HPLC Column
Price (USD)
Price: 2,250.00
Your Price:
Availability
-
Full specifications
Quantity
Flow Rate0.1 to 0.75 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity59%
Temperature60°C
Stationary PhaseC18
Packing MaterialSilicon Chip
Column TypeCylindrical Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description50 cm µPAC™ Neo HPLC Column
Bed Length50 cm
Bed Width180 µm
Interpillar Distance1.25 µm
Pillar Diameter2.5 µm
Pillar Length16 µm
Unit SizeEach
Catalog Number
COL-NANO110NEOB
Unit Size
Each
Description
110 cm µPAC™ Neo HPLC Column
Price (USD)
Price: 2,990.00
Your Price:
Availability
-
Full specifications
Quantity
Flow Rate0.1 to 0.75 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity59%
Temperature60°C
Stationary PhaseC18
Packing MaterialSilicon Chip
Column TypeCylindrical Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description110 cm µPAC™ Neo HPLC Column
Bed Length110 cm
Bed Width180 µm
Pillar Diameter2.5 µm
Pillar Length16 µm
Unit SizeEach
Showing 4 of 4
Catalog NumberSpecificationsUnit SizeDescriptionPrice (USD)AvailabilityQuantity
COL-CAPHTNEOBFull specifications
Each5.5 cm High Throughput µPAC™ Neo HPLC Column
Price: 2,250.00
Your Price:
-
Flow Rate0.1 to 2.5 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity42%
Temperature60°C
Stationary PhaseC18
DimensionsCross Section: 75 x 3 μm
Packing MaterialSilicon Chip
Column TypeRectangular Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description5.5 cm High Throughput µPAC™ Neo HPLC Column
Bed Length5.5 cm
Bed Width1850 µm
Interpillar Distance2 µm
Pillar Length25 μm
Unit SizeEach
COL-LOLO050NEOBFull specifications
Each50 cm Low-Load µPAC™ Neo HPLC Column
Price: 2,500.00
Your Price:
-
Flow Rate0.1 to 0.75 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity59%
Temperature60°C
Stationary PhaseC18
Packing MaterialSilicon Chip
Column TypeCylindrical Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description50 cm Low-Load µPAC™ Neo HPLC Column
Bed Length50 cm
Bed Width180 µm
Interpillar Distance1.25 µm
Pillar Diameter2.5 µm
Pillar Length30 µm
Unit SizeEach
COL-NANO050NEOBFull specifications
Each50 cm µPAC™ Neo HPLC Column
Price: 2,250.00
Your Price:
-
Flow Rate0.1 to 0.75 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity59%
Temperature60°C
Stationary PhaseC18
Packing MaterialSilicon Chip
Column TypeCylindrical Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description50 cm µPAC™ Neo HPLC Column
Bed Length50 cm
Bed Width180 µm
Interpillar Distance1.25 µm
Pillar Diameter2.5 µm
Pillar Length16 µm
Unit SizeEach
COL-NANO110NEOBFull specifications
Each110 cm µPAC™ Neo HPLC Column
Price: 2,990.00
Your Price:
-
Flow Rate0.1 to 0.75 µL/min
Max. Pressure6526 psi (450 bar)
pH1.5 to 7
Pore Size100 to 300 Å
Porosity59%
Temperature60°C
Stationary PhaseC18
Packing MaterialSilicon Chip
Column TypeCylindrical Micro Pillar Array
EndcappedYes
PhaseReversed Phase
Description110 cm µPAC™ Neo HPLC Column
Bed Length110 cm
Bed Width180 µm
Pillar Diameter2.5 µm
Pillar Length16 µm
Unit SizeEach
Showing 4 of 4

Performance and Robustness - μPAC Neo columns operate at moderate pressures, allowing for longer flow paths that increase separation performance and sensitivity. Operating at lower back pressures also extends column lifetime.


Column-to-Column Reproducibility - The unique micromachining manufacturing of our μPAC Neo column line produces columns that are virtually identical. This results in increased injection-to-injection and column-to-column reproducibility, providing you with greater confidence in your results throughout the duration of a research study.


Perfect Flow Path Order - μPAC Neo columns are designed with a perfect flow path order, eliminating heterogeneous flow paths. The ordered flow path of the columns minimizes dispersion to the overall separation, resulting in sharper and more intense chromatographic peaks.

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