2000
DOI: 10.1051/analusis:2000280679
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Capillary electrophoresis with laser-induced fluorescence detection for natively fluorescent analytes

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Cited by 26 publications
(23 citation statements)
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“…In the same vein, Yeung and coworkers proposed the use of a 257-nm Ar ion laser to detect conalbumin or insulin in the 100 pM range [17,18] and other authors have used pulsed laser for such measurements [19,20]. In addition, we note the remarkable work presenting the online recording of emission spectra for identification purposes, cryogenic interfaces for high-resolution spectroscopic identification, and the use of multiphoton excitation to perform UV-LIF which was presented by Gooijer et al [21] Acrylamide is believed to quench the fluorescence [22,23] of Trp when it does not react to form polyacrylamide [24], so we used polyethyleneoxide for the separation of a protein mixture, resulting in nM LOD [19]. Recently we proposed the use of an ellipsoidal LIF detector based on the work of Wan et al [25] which uses the fluorescence reflected inside the capillary and used a glued ellipsoid to collect this fluorescence.…”
Section: Introductionmentioning
confidence: 72%
“…In the same vein, Yeung and coworkers proposed the use of a 257-nm Ar ion laser to detect conalbumin or insulin in the 100 pM range [17,18] and other authors have used pulsed laser for such measurements [19,20]. In addition, we note the remarkable work presenting the online recording of emission spectra for identification purposes, cryogenic interfaces for high-resolution spectroscopic identification, and the use of multiphoton excitation to perform UV-LIF which was presented by Gooijer et al [21] Acrylamide is believed to quench the fluorescence [22,23] of Trp when it does not react to form polyacrylamide [24], so we used polyethyleneoxide for the separation of a protein mixture, resulting in nM LOD [19]. Recently we proposed the use of an ellipsoidal LIF detector based on the work of Wan et al [25] which uses the fluorescence reflected inside the capillary and used a glued ellipsoid to collect this fluorescence.…”
Section: Introductionmentioning
confidence: 72%
“…Within this range, gas lasers are the most commonly used sources: (i) He-Cd laser (325 and 442 nm), (ii) He-Ne laser (543.6, 592.6 and 633 nm), (iii) KrF excimer laser (248 nm), (iv) Nd-YAG (Nd-yttriumaluminium-garnet) laser (266 nm) and (v) Ar 1 ion laser (usually 488 and/or 514 nm) with powers ranging from a few milliwatts to more than 10 W [38]. Diode lasers are starting to be used with greater frequency as they are less expensive, highly compact, stable, thermoelectrically cooled and provide power of few milliwatts of quasi-continuous wave sufficient for LIF detection [39]. Wavelengths available with semiconductor diode lasers are 266, 355, 410, 488 and 532 nm.…”
Section: Instrumentation and Laser Sourcesmentioning
confidence: 99%
“…Wavelengths available with semiconductor diode lasers are 266, 355, 410, 488 and 532 nm. Extraspectral selectivity can be obtained by performing CE-LIF under fluorescence line-narrowing conditions using a cryogenic interface [39,40]. An alternative to deep UV-excitation is the use of an excitation process in which two or three visible or infrared photons act consecutively to bridge the energy gap between the S 0 and S 1 -electronic states of analytes.…”
Section: Instrumentation and Laser Sourcesmentioning
confidence: 99%
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“…CE-LIFD systems make use of visible laser lines so that they can only be applied to analytes that have been chemically derivatized with a suitable fluorescent tag matching the excitation wavelength. But the CE-LIFD can be expanded to include natively fluorescent analytes by employing either improved UV pulse or continuous wave laser systems or multiphoton-excitation [164]. A highly sensitive LIFD detection system based on a 635-nm laser diode and a confocal microscope is used for planar microfluidic CE chip [165].…”
Section: Improved Detectionmentioning
confidence: 99%