Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10556815 | Microchemical Journal | 2011 | 5 Pages |
Abstract
A simple and compact fluorescence excitation source was prepared using a 405 nm blue laser diode module and characterized in capillary electrochromatographic or capillary electrophoretic microchip separation. An inexpensive blue laser diode module with a tiny focusing lens was simply mounted at the center of an aluminum block on a miniature linear motion guide for heat dissipation and position control. A slit unit has a series of fifteen laser-machined slits with 1 mm space along the direction of the separation channel of the microchip above this unit. The laser beam was focused through a slit with 50 μm width to the separation channel at the position of a desired length. Although the excitation source unit was connected to a simple current controlled power supply, it was stable with 0.1% drift per hour and 1.3% (1Ï) fluctuation in intensity. This simple excitation source can be prepared easily with inexpensive minimum optical components and mounted with a microchip on the stage of an ordinary fluorescence microscope for daily separation studies using a CE or CEC microchip. The applicability of the excitation source was evaluated with FITC-amino acid derivative mixtures using a polymer based CEC microchip packed fully with submicron silica beads in its microchannel.
Related Topics
Physical Sciences and Engineering
Chemistry
Analytical Chemistry
Authors
Jongman Park, Shinseon Kim,