The basic principles and fundamentals of modern ion chromatography (IC) are presented with a focus on key separation mechanisms, including ion-exchange, ion-exclusion, chelation, and zwitterionic interactions. The most common types of ion chromatographic columns, eluents, and detection modes are briefly discussed, together with possible applications of IC for the determination of inorganic and organic anions and cations
The problem with which this research is concerned is the determination of inorganic anions and catio...
An overview of new possibilities for the simultaneous determination of anions and cations by ion chr...
The determination of inorganic anions has traditionally been performed using classical titrimetric, ...
The basic principles and fundamentals of modern ion chromatography (IC) are presented with a focus o...
In its initial guise, the technique of ion chromatography (IC) was considered to encompass the sepa...
Ion chromatography (IC) is one of the most used analytical methods for the determination of inorgani...
In the 1960s and early 1970s, various chromatographic methods were used to separate low molecular we...
Ion exchange chromatography is a chromatography process that separates ions and polar molecules base...
Ion chromatography (IC) as developed by Small et. al. in 1975 has become an efficient and reliable a...
The development of ion chromatography (IC) in 1975 created a revolution in the determination of inor...
Ion chromatography (IC) has been used extensively for environmental, food and bioanalysis for decade...
Since its inception in 19751, ion chromatography (IC) has grown to become a powerful separation to...
In addition to ion exchange processes nowadays already considered as classical methods (determinatio...
In this chapter, detection methods are discussed, with emphasis on both the hardware considerations...
Ion chromatography (IC) has been available commercially for more than 25 years and can therefore be...
The problem with which this research is concerned is the determination of inorganic anions and catio...
An overview of new possibilities for the simultaneous determination of anions and cations by ion chr...
The determination of inorganic anions has traditionally been performed using classical titrimetric, ...
The basic principles and fundamentals of modern ion chromatography (IC) are presented with a focus o...
In its initial guise, the technique of ion chromatography (IC) was considered to encompass the sepa...
Ion chromatography (IC) is one of the most used analytical methods for the determination of inorgani...
In the 1960s and early 1970s, various chromatographic methods were used to separate low molecular we...
Ion exchange chromatography is a chromatography process that separates ions and polar molecules base...
Ion chromatography (IC) as developed by Small et. al. in 1975 has become an efficient and reliable a...
The development of ion chromatography (IC) in 1975 created a revolution in the determination of inor...
Ion chromatography (IC) has been used extensively for environmental, food and bioanalysis for decade...
Since its inception in 19751, ion chromatography (IC) has grown to become a powerful separation to...
In addition to ion exchange processes nowadays already considered as classical methods (determinatio...
In this chapter, detection methods are discussed, with emphasis on both the hardware considerations...
Ion chromatography (IC) has been available commercially for more than 25 years and can therefore be...
The problem with which this research is concerned is the determination of inorganic anions and catio...
An overview of new possibilities for the simultaneous determination of anions and cations by ion chr...
The determination of inorganic anions has traditionally been performed using classical titrimetric, ...
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