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http://dx.doi.org/10.46670/JSST.2022.31.6.428

Improved Resolution of Paper-based Sensor for Proline Detection by Low-temperature Drying of Ninhydrin Solution  

Ji-Kwan, Kim (Department of Mechanical Convergence Engineering, Gwangju Unversity)
Young-Soo, Choi (Department of Mechanical Convergence Engineering, Gwangju Unversity)
Publication Information
Journal of Sensor Science and Technology / v.31, no.6, 2022 , pp. 428-432 More about this Journal
Abstract
In this study, we describe the improvement of the resolution of a paper-based sensor by fabricating a high-concentration ninhydrin part using a low-temperature drying method to detect proline with high resolution. In the conventional paper-based sensor for detecting proline, the ninhydrin part is fabricated at room temperature, and in this process, the ninhydrin solution spreads around the ninhydrin part. Therefore, the concentration of the ninhydrin part becomes lower than that of the applied solution, lowering the resolution of the sensor. The proposed paper-based sensor better improved the sensitivity of the sensor compared to the existing sensor by fabricating a high-concentration ninhydrin part through drying the ninhydrin solution using a low-temperature drying method. Owing to the experiment, the intensity of the green color of the paper-based sensor with the integrated ninhydrin part fabricated at 10 ℃ is approximately 20% lower than the paper-based sensor with an integrated ninhydrin part fabricated at room temperature, indicating better sensor resolution. Therefore, the paper-based sensor with an integrated ninhydrin part fabricated at a high concentration could be useful for diagnosing drought.
Keywords
Proline; Low-temperature drying; Proline-ninhyrin reaction; Paper-based sensor;
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