New Fully Portable Instrument for the Versatile Determination of Cations and Anions by Capillary Electrophoresis with Contactless Conductivity Detection

Kubáň, Pavel; Nguyen, Thi Quynh Hoa; Macka, Mirek; Haddad, Paul R.; Hauser, Peter C.

doi:10.1002/elan.200703908

Cited by 107 publications

(65 citation statements)

References 24 publications

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“…C 4 D detection provided 10-fold lower detection limits and separations were completed more quickly compared with separations reported previously using the portable CE instrument with indirect photometric detection based on highly absorbing probes and LED light sources [11]. In comparison with other methods on portable CE instrumentation, the detection limits achieved for inorganic ions in this study were quite similar to those achieved by Kubáò et al [22] performing CE-C 4 D detection and those obtained by Kappes et al [33,34] using amperometric detection. Moreover, these detection limits are 1-3 orders of magnitude lower than those achieved using potentiometric or potential gradient detec- tion [32,33,35].…”

Section: Discussionsupporting

confidence: 81%

“…Of increasing interest is the use of portable and field-deployable instrumentation for these analyses so that the distance between sample collection and analysis can be minimised. CE is especially amenable to miniaturisation [21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

“…The first portable CE instrumentation was developed by Kappes and Hauser [32] and the instrument was equipped with potentiometric [32], amperometric [33] and conductometric [34] detectors, weighed 7.5 kg and was housed in a poly(vinyl chloride) case. More recently, Hauser and co-workers [22] designed a new portable instrument of similar dimensions, which was better suited to C 4 D detection, providing LODs as low as 10 mg/L for the separation of ten inorganic cations and five inorganic anions. The only other body of work utilising portable CE instrumentation is that of Li and co-workers.…”

Section: Introductionmentioning

confidence: 99%

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Identification of inorganic ions in post‐blast explosive residues using portable CE instrumentation and capacitively coupled contactless conductivity detection

et al. 2008

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Novel CE methods have been developed on portable instrumentation adapted to accommodate a capacitively coupled contactless conductivity detector for the separation and sensitive detection of inorganic anions and cations in post-blast explosive residues from homemade inorganic explosive devices. The methods presented combine sensitivity and speed of analysis for the wide range of inorganic ions used in this study. Separate methods were employed for the separation of anions and cations. The anion separation method utilised a low conductivity 70 mM Tris/70 mM CHES aqueous electrolyte (pH 8.6) with a 90 cm capillary coated with hexadimethrine bromide to reverse the EOF. Fifteen anions could be baseline separated in 7 min with detection limits in the range 27-240 mg/L. A selection of ten anions deemed most important in this application could be separated in 45 s on a shorter capillary (30.6 cm) using the same electrolyte. The cation separation method was performed on a 73 cm length of fused-silica capillary using an electrolyte system composed of 10 mM histidine and 50 mM acetic acid, at pH 4.2. The addition of the complexants, 1 mM hydroxyisobutyric acid and 0.7 mM 18-crown-6 ether, enhanced selectivity and allowed the separation of eleven inorganic cations in under 7 min with detection limits in the range 31-240 mg/L. The developed methods were successfully field tested on post-blast residues obtained from the controlled detonation of homemade explosive devices. Results were verified using ion chromatographic analyses of the same samples.

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Section: Discussionsupporting

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Identification of inorganic ions in post‐blast explosive residues using portable CE instrumentation and capacitively coupled contactless conductivity detection

et al. 2008

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“…From the schematic given by Kubáň et al [86], the layout of the portable CE device was similar to that by Kappes et al [77], though the dimensions were slightly different: 310 mm × 220 mm × 260 mm. This meant that the volume was 1.7 times greater than that of the work by Kappes et al Further to this the control electronics to operate the portable CE system were housed in a separate aluminium box of dimensions 70 mm × 205 mm × 160 mm.…”

Section: Non-chip-basedmentioning

confidence: 94%

Review on the development of truly portable andin-situcapillary electrophoresis systems

Lewis

Cranny

Harris

et al. 2013

Meas. Sci. Technol.

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Capillary electrophoresis (CE) is a technique which uses an electric field to separate a mixed sample into its constituents. Portable CE systems enable this powerful analysis technique to be used in the field. Many of the challenges for portable systems are similar to those of autonomous in-situ analysis and therefore portable systems may be considered a stepping stone towards autonomous in-situ analysis. CE is widely used for biological and chemical analysis and example applications include: water quality analysis; drug development and quality control; proteomics and DNA analysis; counter-terrorism (explosive material identification) and corrosion monitoring. The technique is often limited to laboratory use, since it requires large electric fields, sensitive detection systems and fluidic control systems. All of these place restrictions in terms of: size, weight, cost, choice of operating solutions, choice of fabrication materials, electrical power and lifetime. In this review we bring together and critique the work by researchers addressing these issues. We emphasize the importance of a holistic approach for portable and in-situ CE systems and discuss all the aspects of the design. We identify gaps in the literature which require attention for the realization of both truly portable and in-situ CE systems.

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“…The CE instrument was purpose-built around a commercial high-voltage power supply module capable of delivering up to 30 kV (CZE 2000R, Spellman, Pulborough, UK) and otherwise similar to the design described in [42]. The detector was also built in-house.…”

Section: Instrumentationmentioning

confidence: 99%

Quantification of plasma lactate concentrations using capillary electrophoresis with contactless conductivity detection

et al. 2011

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The quantification of plasma lactate and evaluation of the lactate threshold by CE with capacitively coupled contactless conductivity is demonstrated. The only sample preparation needed was deproteinization with a ACN/methanol mixture. A solution of 10 mmol/L 2-morpholinoethanesulfonic acid monohydrate, 10 mmol/L DL-histidine, 70 μmol/L hexadecyltrimethylammonium bromide, pH 6.0 was found suitable as running buffer. Linearity was achieved for the concentration range of 10-1000 μmol/L with a correlation coefficient of 0.9994. The limit of detection (3 S/N) was determined as 3.2 μmol/L. Intra- and inter-day variabilities were less than 7% RSD. The suitability of the method could be demonstrated by analyzing various clinical samples, where the results correlated satisfactorily with those of an established enzymatic method.

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New Fully Portable Instrument for the Versatile Determination of Cations and Anions by Capillary Electrophoresis with Contactless Conductivity Detection

Cited by 107 publications

References 24 publications

Identification of inorganic ions in post‐blast explosive residues using portable CE instrumentation and capacitively coupled contactless conductivity detection

Identification of inorganic ions in post‐blast explosive residues using portable CE instrumentation and capacitively coupled contactless conductivity detection

Review on the development of truly portable andin-situcapillary electrophoresis systems

Quantification of plasma lactate concentrations using capillary electrophoresis with contactless conductivity detection

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