<mods:mods version="3.0" xsi:schemaLocation="http://www.loc.gov/mods/v3 http://www.loc.gov/standards/mods/v3/mods-3-0.xsd" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:mods="http://www.loc.gov/mods/v3"><mods:titleInfo><mods:title>Polymeric Pseudostationary Phases and Dendrimers</mods:title></mods:titleInfo><mods:name type="personal"><mods:namePart type="given">CP</mods:namePart><mods:namePart type="family">Palmer</mods:namePart><mods:role><mods:roleTerm type="text">author</mods:roleTerm></mods:role></mods:name><mods:abstract>The theory and applications presented in this text establish electrokinetic chromatography&#13;
(EKe) as a powerful and nseful separation techniqne. Ultimately, the strength and&#13;
utility of EKC are determined by the performance of the pseudostationary phase (PSP).&#13;
The limitations and restrictions imposed by the limited migration range of EKC place&#13;
relatively stringent &amp;quirements on PSP performance. Optimization of EKC separations&#13;
within the limited migration range requires that PSPs provide high selectivity and permit&#13;
the retention factorto be optimized within a relativelynarrow optimumrange. The use of&#13;
PSPs with high electrophoretic mobility can extend the migration range, thus placing less&#13;
stringent requirements on selectivity and retention. Finally, PSPs must provide highly&#13;
efficient separations.</mods:abstract><mods:classification authority="lcc">250000 Chemical Sciences</mods:classification><mods:classification authority="lcc">250401 Separation Science</mods:classification><mods:classification authority="lcc">250400 Analytical Chemistry</mods:classification><mods:originInfo><mods:dateIssued encoding="iso8061">2006</mods:dateIssued></mods:originInfo><mods:originInfo><mods:publisher>John Wiley &amp; Sons Ltd.</mods:publisher></mods:originInfo><mods:genre>Book Section</mods:genre></mods:mods>