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Thermo Scientific™ HiPPR Detergent Removal Resin and Kits

Efficiently remove detergents from samples with this high protein and peptide recovery detergent removal resin, especially for dilute protein samples.

$304.50 - $627.90

Catalog Number Mfr. No. Quantity Price Quantity    


thermo scientific™
5mL kit Each for $304.50


thermo scientific™
24 columns Each for $317.10


thermo scientific™
2 plates Each for $627.90
Description & Specifications

Thermo Scientific™ HiPPR Detergent Removal Resin used in spin column or 96-well filter plate formats improves mass spectrometry results by efficiently removing detergents from samples with low protein or peptide concentrations.

Optimized for sample concentrations of 1 to 100μg/mL,the HiPPR (High Protein and Peptide Recovery) Detergent Removal Resin removes >95% of detergents used in protein extraction and biological sample preparation with minimal loss of protein and peptide. The Detergent Removal Resin is ideal for removing commonly used detergents, including SDS, Triton™ X-100, NP-40 and CHAPS, at concentrations of 0.5 to 1% and is available in pre-filled spin columns and 96-well filter spin plates for sample volumes up to 100μL. For other sample sizes, the detergent removal resin slurry is available with empty spin columns that can be used to make custom spin columns for processing sample volumes of 25 to 200μL.


  • Optimized - removes more than 95% of detergent from samples with low-concentrations (1 to 100μg/mL) of proteins or peptides

  • Fast - sample processing takes less than 15 minutes

  • Effective - eliminates detergent interference in downstream applications like ELISA, isoelectric focusing and mass spectrometry

Available Formats:

  • Resin Slurries bulk resin supplied with empty 0.8mL spin columns

  • Spin Columns 0.1mL microcentrifuge columns

  • 96-well Spin Plates pre-dispensed 96-well filter plates, compatible with centrifugation and vacuum manifold systems for manual or automated purification. The plates enable fast, consistent well-to-well and plate-to-plate reproducibility for small-scale, high-throughput separations