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Thermo Scientific™ HyperSep™ SLE Plates (pH 9)

A fast and effective sample preparation technique for removal of phospholipids from biological matricies.

$231.75 - $246.02

Specifications

For Use With Removal of Phospholipids from Biological Matrices
Type SLE Plate
Sorbent HyperSep Special Treated Diatomite
View More Specs
Products
Catalog Number Mfr. No. Description Price Quantity    

60-109-40029W

 
thermo scientific™
6010940029W
400mg/2mL well, 96 well plate pH9 Each for $246.02

60-109-50029W

 
thermo scientific™
6010950029W
500mg/2mL well, 96 well plate pH9 Each for $246.02

60-109-20029W

 
thermo scientific
6010920029W
200mg/2mL well, 96 well plate pH9 Each for $231.75

60-109-30029W

 
thermo scientific
6010930029W
300mg/2mL well, 96 well plate pH9 Each for $231.75
Description & Specifications

Specifications

For Use With Removal of Phospholipids from Biological Matrices
Type SLE Plate
Sorbent HyperSep Special Treated Diatomite

Provide a fast and effective sample preparation technique for removal of phospholipids from biological matrices with Thermo Scientific™ HyperSep™ SLE (Solid supported Liquid/Liquid Extraction).

HyperSep SLE plates (pH 9) deals with sample preparation of biological matrices via a simple, efficient and an effective protcol. The focus being the removal of interfering phospholipids which cause a number of issues for end point analysis.

SLE offers a number of advantages over existing sample preparation techniques such as Liquid/Liquid Extraction (LLE) and Protein Precipitation techniques for dealing with biological matrices. In comparison to LLE, SLE offers greater reproducibility and recoveries, lower solvent requirements and prevents emulsification which is often associated with the LLE technique. It also lends itself to full automation which is not possible via LLE. SLE provides improved cleanliness of sample extract and associated increase in sensitivity compared to protein precipitation techniques which are unable to remove phospholipids.

  • Simple, easy-to-use protocol
  • Removal of phospholipids
  • Greater reproducability and recoveries compared to LLE