Easy switching of sources and LC flow regimes on the ZenoTOF 7600 system by Christie Hunter | 7 CommentsThis series of videos outlines how a user can easily switch sources and operate the system in different LC flow regimes.
Using Scheduled Ionization to reduce system ion load for proteomics data acquisition by Alexandra Antonoplis | 0 CommentsWhen analyzing highly complex samples from biological matrices, there can be significant amounts of material that elute in the wash cycle of the LC run, depending on the up-front sample preparation used. The Scheduled Ionization mode, available in both SCIEX OS...
Assess the performance of the Echo® MS system by Christie Hunter | 0 CommentsTo obtain the best, most reproducible results using the Echo MS system, it is important to select the best solvent for your analyte and matrix and to ensure the flow rate is optimized for your solvent. Please review this flow rate optimization community post to...
Adapting a SCIEX high flow source for microflow LC by Christie Hunter | 0 CommentsTo set up a SCIEX high flow source for microflow LC (Turbo V ion source, DuoSpray source or IonDrive Turbo V ion source), first you must replace the wider bore electrodes with more narrow bore hybrid electrodes. Note with the OptiFlow Turbo V ion sources, there are...
Easy switching of sources and LC flow regimes on the ZenoTOF 7600 system by Christie Hunter | Data acquisition, Ion sources, Life Science Research, Proteomics, SCIEX information, ZenoTOF 7600 systemThis series of videos outlines how a user can easily switch sources and operate the system in different LC flow regimes.
Using Scheduled Ionization to reduce system ion load for proteomics data acquisition by Alexandra Antonoplis | Data acquisition, Ion sources, Life Science Research, Proteomics, QTOF, QTRAP / Triple Quad, SCIEX information, SCIEX OS software, ZenoTOF 7600 systemWhen analyzing highly complex samples from biological matrices, there can be significant amounts of material that elute in the wash cycle of the LC run, depending on the up-front sample preparation used. The Scheduled Ionization mode, available in both SCIEX OS...
Assess the performance of the Echo® MS system by Christie Hunter | Echo MS, Optimizing Performance, SCIEX information, TechnologyTo obtain the best, most reproducible results using the Echo MS system, it is important to select the best solvent for your analyte and matrix and to ensure the flow rate is optimized for your solvent. Please review this flow rate optimization community post to...
Adapting a SCIEX high flow source for microflow LC by Christie Hunter | Data acquisition, Development, Ion sources, LC, Life Science Research, Metabolomics, Pharma, Proteomics, SCIEX informationTo set up a SCIEX high flow source for microflow LC (Turbo V ion source, DuoSpray source or IonDrive Turbo V ion source), first you must replace the wider bore electrodes with more narrow bore hybrid electrodes. Note with the OptiFlow Turbo V ion sources, there are...
Breaking down the SCIEX Triple Quad™ 7500 LC-MS/MS System – QTRAP® Ready by Jianru Stahl-Zeng | Blogs, ClinicalSensitivity and robustness carry different meanings in the world of mass spectrometry. Generally, sensitivity refers to an instrument’s ability to achieve lower limits of detection (LOD). Robustness, on the other hand, refers to an instrument’s ability to consistently...
Importing acquisition methods from Analyst software to SCIEX OS software by April Quinn-Paquet | Data acquisition, How-to videos, Methods / workflows, SCIEX OS software, TechnologyThe SCIEX Triple Quad 7500 system is the first nominal mass instrument to be released completely on SCIEX OS software. Moving to a new software solution can be time consuming with the need to transfer numerous methods to the new platform. SCIEX OS software helps...
A rising star in food allergen research: proteomics of shellfish allergen by SCIEX Community | Blogs, Food / Beverage, Life Science Research, ProteomicsIt’s important to know what you’re eating, especially if you suffer from a food allergy. About 220 million people worldwide live with a food allergy.1 These numbers, along with the complexity and severity of conditions, continue to rise. In America, there are about 32 million food allergy sufferers—5.6 million of those are children under the age of 18.2.2 That’s 1 out of every 13 children, or about 2 in every classroom. From a financial perspective, the cost of food allergy childcare for US families is up to $25 billion