Add to ORKGThe column temperature as well as a chloride concentration gradient were found to be effective for the optimization of the analysis of inorganic polyphosphates in gradient ion-exchange chromatography. The effects of column temperature on both retention time and band width are discussed. A computer-assisted retention prediction system was successfully applied to the optimization of the gradient elution conditions. More than 35 kinds of polyphosphates could be separated completely under the optimum conditions
In ionexchange chromatography, the pH gradient mode becomes more and more popular today for the anal...
The analytical solutions of the ideal model for gradient elution that ignores the influence of the s...
High Performance Liquid Chromatography (HPLC) has been a versatile separation method for polymers fo...
The isocratic elution conditions, column temperature and eluent concentra-tion, at pH 10 for the ana...
Highly efficient columns are necessary for the modern analytical applications of liquid chromatograp...
This study reports simulation and optimization of ion chromatography separations using multi-segment...
This work demonstrates that a highly linear, controllable and wide-ranged pH-gradient can be generat...
Temperature programming has been used increasingly in liquid chromatography in recent years. In part...
Gradient elution chromatography is an efficient technique for adjusting the retention of sample comp...
The general problem of using gradients in chromatography is presented. After the classification of t...
This work demonstrates that the type of ion-exchanger (anion or cation), the mode of operation (bind...
Temperature programming was used to improve selectivity in the suppressed ion chromatographic (IC) s...
This study addresses the simulation of ion chromatographic (IC) separations performed under conditio...
Ion chromatography of inorganic cations using a phosphate-coated zirconia stationary phase (PZ) was ...
Retenční charakteristiky orto-, di- a trifosforečnanů na anexových kolonách SEPARON HEMA S-1000 Q-L,...
In ionexchange chromatography, the pH gradient mode becomes more and more popular today for the anal...
The analytical solutions of the ideal model for gradient elution that ignores the influence of the s...
High Performance Liquid Chromatography (HPLC) has been a versatile separation method for polymers fo...
The isocratic elution conditions, column temperature and eluent concentra-tion, at pH 10 for the ana...
Highly efficient columns are necessary for the modern analytical applications of liquid chromatograp...
This study reports simulation and optimization of ion chromatography separations using multi-segment...
This work demonstrates that a highly linear, controllable and wide-ranged pH-gradient can be generat...
Temperature programming has been used increasingly in liquid chromatography in recent years. In part...
Gradient elution chromatography is an efficient technique for adjusting the retention of sample comp...
The general problem of using gradients in chromatography is presented. After the classification of t...
This work demonstrates that the type of ion-exchanger (anion or cation), the mode of operation (bind...
Temperature programming was used to improve selectivity in the suppressed ion chromatographic (IC) s...
This study addresses the simulation of ion chromatographic (IC) separations performed under conditio...
Ion chromatography of inorganic cations using a phosphate-coated zirconia stationary phase (PZ) was ...
Retenční charakteristiky orto-, di- a trifosforečnanů na anexových kolonách SEPARON HEMA S-1000 Q-L,...
In ionexchange chromatography, the pH gradient mode becomes more and more popular today for the anal...
The analytical solutions of the ideal model for gradient elution that ignores the influence of the s...
High Performance Liquid Chromatography (HPLC) has been a versatile separation method for polymers fo...