Jasmine S. Furter scite author profile

A CE instrument that can be assembled from commercially available components with minimal construction effort is described. Except for the electronic control circuitry no specially made parts are required. It is based on a flexible design of microfluidic, electropneumatic, and electronic sections and different configurations can easily be implemented. Automated injection into the capillary is performed hydrodynamically by the application of a pressure for a controlled length of time. The performance of the device was tested with a contactless conductivity detector by separating different metal ions. In addition, nine metal cations related to the quality of honey were separated in 2.3 min and four honey samples were analysed quantitatively to demonstrate the applicability of the method.

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Ambient ionization source based on a dielectric barrier discharge for direct testing of pharmaceuticals using ion mobility spectrometry

Chantipmanee

Furter

Hauser

2022

Analytica Chimica Acta

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Injection system for fast capillary electrophoresis based on pressure regulation with flow restrictors

Furter

Hauser

2018

Electrophoresis

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A fast automated system for rapid electrophoretic separations in short conventional capillaries employing contactless conductivity detection is presented. The instrument is based on pneumatic pressurization and does not require a conventional pump. The required pressures and flow rates for the different steps of the injection and flushing processes are produced with the help of two flow restrictors. The device is implemented on a microfluidic breadboard with dimensions of ca. 13 × 20 cm and employs miniature valves. Nine inorganic cations, namely NH K , Na , Ca , Mg , Mn , Sr , Li , and Ba , could be separated in a capillary of 10 μm inner diameter and 6 cm effective length within 25 s. Following a reduction of the effective length to 4 cm, still five inorganic cations could be separated in a time span of 12 s. The repeatability of peak areas was better than 3.1 % and limits of detection between 3.5 and 5.5 μM were achieved.

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Compact automated capillary electrophoresis instrument for coupling with mass spectrometry by using sheathless electrospray ionization

Furter

Hauser

2021

Journal of Chromatography A

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Jasmine S. Furter

Interactive control of purpose built analytical instruments with Forth on microcontrollers - A tutorial

Low‐cost automated capillary electrophoresis instrument assembled from commercially available parts

Ambient ionization source based on a dielectric barrier discharge for direct testing of pharmaceuticals using ion mobility spectrometry

Injection system for fast capillary electrophoresis based on pressure regulation with flow restrictors

Compact automated capillary electrophoresis instrument for coupling with mass spectrometry by using sheathless electrospray ionization

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