µPAC™ Trapping column
Our µPAC™ Trapping column was developed with an identical stationary phase support morphology, matching perfectly the retentive properties of our analytical µPAC™ columns. Effectively desalting and preconcentrating the analytes improves the analytical column lifetime and workflow throughput.
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Our µPAC™ Trapping column was developed with an identical stationary phase support morphology, matching perfectly the retentive properties of our analytical µPAC™ columns. Effectively desalting and preconcentrating the analytes improves the analytical column lifetime and workflow throughput.
Oligonucleotide characterization using μPAC™ nanoLC C18 columns in ion-pairing reversed phase liquid chromatography (IPRP-LC) mode
In this application note, the resolving power of micro Pillar Array Columns (μPAC™) for closely related oligonucleotide sequences is demonstrated using an oligo-T ladder and benchmarked versus state-of-the-art packed bed columns.
Non-targeted host cell protein monitoring in downstream process samples µPAC™-MS
In this application note, PharmaFluidics uses micropillar array columns (µPAC™) in combination with mass spectrometry for the characterization of host cell proteins and their monitoring during downstream processing.
Peptide Sample Enrichment Using µPAC™ Trapping Columns
The online preconcentration of analytes onto low volume trapping columns is a commonly used injection strategy in nano- and microbore LC-MS/MS analysis of complex peptide mixtures. Compared to direct injection onto the analytical column, a sample trapping approach provides several advantages. By effectively desalting and preconcentrating the analytes of interest onto the trap column, analytical column lifetime and workflow throughput can be improved. The trapping configuration allows effective removal of sample matrix components such as salts and contaminants which can interfere with downstream MS analysis, hereby increasing analytical column lifetime and at the same time improving detection sensitivity and the spectral quality that is generated for a sample.
µPAC™ - A New Generation of Micro-Chip Based HPLC Columns
Learn more about µPAC™ micro-Chip based HPLC columns from PharmaFluidics
Peptide sample enrichment using μPAC™ Trapping columns
In this video, PharmaFluidics' Global Field Support Expert, Geert Van Raemdonck, explains PharmaFluidics' new technical note titled: Peptide sample enrichment using μPAC™ Trapping columns.
How to Connect the µPAC™ to a NanoFlex Source
This video provides an explanation of how to manipulate the Pharmafluidics µPAC to connect to a nanoFlex source.
Thermo Fisher Scientific adds patterned microchip-based technology to liquid chromatography portfolio
The technology extends capabilities in column performance for biopharma and proteomics researchers
Max Planck researchers feed Proteome AI with PharmaFluidics technology
Micro-chip based µPAC LC columns – key component in Nature study doubling the universe of known proteins across all kingdoms of life
How to Double Your IDs Using Micro Pillar Array Chromatography Columns
Watch this on-demand expert webinar on how to use µPAC™ to improve the sensitivity of single-cell proteomic samples
How to Double Your IDs for Single-Cell Proteomics Using µPAC™
Join this webinar to find out how you can use micro pillar array chromatography columns (µPAC™) to improve the sensitivity of low-input proteomic samples
