Abstract
The emerging need for accurate, efficient, inexpensive, and multiparameter monitoring of water quality has led to interest in the miniaturization of benchtop chromatography systems. This paper reports a chip-based ion chromatography (chip-IC) system in which the microvalves, sample channel, packed column, and conductivity detector are all integrated on a polymethylmethacrylate (PMMA) chip. A laser-based bonding technique was developed to guarantee simultaneous robust sealing between the homogeneous and heterogeneous interfaces. A five-electrode-based conductivity detector was presented to improve the sensitivity for nonsuppressed anion detection. Common anions (F−, Cl−, NO3−, and SO42−) were separated in less than 8 min, and a detection limit (LOD) of 0.6 mg L−1 was achieved for SO42−. Tap water was also analyzed using the proposed chip-IC system, and the relative deviations of the quantified concentration were less than 10% when compared with that a commercial IC system.
Highlights
Safe drinking water is a critical resource for human health[1,2]
Chip-ion chromatography (IC) system Figure 1a presents an overview of the experimental setup
The chip-based ion chromatography (chip-IC) system consists of an IC chip as well as necessary electronics including a data processing circuit and a data acquisition (DAQ) unit, and it is arranged in a 3D-printed box that is 17 × 19 × 10 cm[3] in size and less than 2 kg in weight
Summary
Safe drinking water is a critical resource for human health[1,2]. Among a variety of contaminants, some chemical species present an ongoing concern[3]. An epidemiological study has shown that long-term exposure to fluoride and nitrate in drinking water can lead to chronic diseases[4]. Chloride and sulfate may cause certain aesthetic effects. The allowed concentrations of these species in drinking water have been regulated worldwide (Table 1). It is of great health significance for end-users to measure the concerned ions accurately, inexpensively, and conveniently
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