Shim-pack MAYI Series
HPLC Column
Biological Sample Pretreatment Column
Due to optimized particle size and a newly developed coating technology, the MAYI-ODS online pretreatment column is highly effective in deproteinization and offers long-term stability. It provides excellent reproducibility even for continuous analysis of multiple analytes.
To Co-Sense for BA
How the Shim-pack MAYI-ODS Works
The outer surfaces of silica gel (50 µm) are coated with a hydrophilic polymer, so that only the interior of pores are chemically modified by octadecyl radicals (ODS). Since proteins and other macromolecules cannot enter the pores and are blocked by the hydrophilic polymer on the outer surfaces, they are quickly eluted without being retained by the ODS solid phase. In contrast, pharmaceuticals and other induced low molecular weight compounds penetrate the pores and are retained by the inner surfaces of the stationary phase.
Features
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Due to the polymer coating technology and particle size optimization, stable data can be obtained for long periods. The figure below shows results from...
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The Shim-pack MAYI-ODS column provides stable component recovery rates and protein removal, even when...
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News / Events
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PITTCON 2025
March 1-5
Boston, MA -
HPLC 2024
July 20-25
Hilton Denver City Center, Denver Ballroom
Denver, Colorado
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Shimadzu Scientific Instruments Opens R&D Center
These forward-focused R&D centers will enable us to closely collaborate with customers and stakeholders to develop products that meet tomorrow’s analytical laboratory needs and swiftly deliver these solutions to the marketplace.
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National American Chemical Society (Spring) 2024
March 18-20
Ernest N. Morial Convention Center
New Orleans, Louisiana
Booth # 2931
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Shimadzu Scientific Instruments and Telescope Innovations Initiate Technology Partnership
The partners aim to integrate SSI’s High-Performance Liquid Chromatography (“HPLC”) systems with Telescope’s flagship product, the DirectInject-LC.
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New Nexera™ XS inert UHPLC System Eliminates Challenges of High-Concentration Mobile Phases to Achieve High Sensitivity and Reliability