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The Effectiveness of Polar Stationary Phase Modification on Peak Shape for Basic Compounds Under General Reversed Phase Conditions - A Comparison of Four Alkyl C18 Phases
Described in this application note are the details for an investigation of basic compound peak shape across four different alkyl C18 stationary phases that are all based upon the same core-shell HPLC/UHPLC particle morphology. The goal of this application was to investigate the effect of a stationary phase modification and specifically the effect of a positive surface charge modification on peak shape for basic compounds under general reversed phase conditions.
The Effectiveness of Polar Stationary Phase Modification on Peak Shape for Basic Compounds Under General Reversed Phase Conditions - A Comparison of Four Alkyl C18 Phases
Described in this application note are the details for an investigation of basic compound peak shape across four different alkyl C18 stationary phases that are all based upon the same core-shell HPLC/UHPLC particle morphology. The goal of this application was to investigate the effect of a stationary phase modification and specifically the effect of a positive surface charge modification on peak shape for basic compounds under general reversed phase conditions.
The Effectiveness of Polar Stationary Phase Modification on Peak Shape for Basic Compounds Under General Reversed Phase Conditions - A Comparison of Four Alkyl C18 Phases
Described in this application note are the details for an investigation of basic compound peak shape across four different alkyl C18 stationary phases that are all based upon the same core-shell HPLC/UHPLC particle morphology. The goal of this application was to investigate the effect of a stationary phase modification and specifically the effect of a positive surface charge modification on peak shape for basic compounds under general reversed phase conditions.