John Palmer scite author profile

Unlike recent studies that have depended on manipulation of separation buffer parameters to facilitate stacking of neutral analytes in micellar capillary electrophoresis (MCE) mode, we have developed a method of stacking based simply on manipulation of the sample matrix. Many solutions for sample stacking in MCE are based on strict control of pH, micelle type, electroosmotic flow (EOF) rate, and separation-mode polarity. However, a universal solution to sample stacking in MCE should allow for free manipulation of separation buffer parameters without substantially affecting separation of analytes. Analogous to sample stacking in capillary zone electrophoresis by invoking field amplification of charged analytes in a low-conductivity sample matrix, the proposed method utilizes a high-conductivity sample matrix to transfer field amplification from the sample zone to the separation buffer. This causes the micellar carrier in the separation buffer to stack before it enters the sample zone. Neutral analytes moving out of the sample zone with EOF are efficiently concentrated at the micelle front. Micelle stacking is induced by simply adding salt to the sample matrix to increase the conductivity 2-3-fold higher than the separation buffer. This solution allows free optimization of separation buffer parameters such as micelle concentration, organic modifiers, and pH, providing a method that may complement virtually any existing MCE protocol without restricting the separation method.

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Using spatial metrics to predict scenic perception in a changing landscape: Dennis, Massachusetts

Palmer

2004

Landscape and Urban Planning

203

105

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John Palmer

Two-dimensional Ising correlations: Convergence of the scaling limit

Rating reliability and representation validity in scenic landscape assessments

A Universal Concept for Stacking Neutral Analytes in Micellar Capillary Electrophoresis

Using spatial metrics to predict scenic perception in a changing landscape: Dennis, Massachusetts

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