Advanced Colorimetric Paper Sensors Using Color Focusing Effect Based on Asymmetric Flow of Fluid

Although paper-based colorimetric sensors utilizing enzymatic reactions are well suited for real-field diagnosis, their widespread use is hindered by signal blurring at the detection spot due to the action of capillary forces on the liquid and the corresponding membrane. In this study, we eliminated...

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Published in	ACS sensors Vol. 4; no. 4; pp. 1103 - 1108
Main Authors	Jang, Hyungjun, Park, Jin-Ho, Oh, Jusung, Kim, Kihyeun, Kim, Min-Gon
Format	Journal Article
Language	English
Published	United States American Chemical Society 26.04.2019
Subjects	Chitosan - analogs & derivatives Color Colorimetry - instrumentation Colorimetry - methods Enzymes, Immobilized - chemistry Glucose - analysis Glucose - chemistry Glucose Oxidase - chemistry Humans Lactates - chemistry Limit of Detection Membranes, Artificial Urate Oxidase - chemistry Uric Acid - chemistry Uric Acid - urine Urine - chemistry asymmetric flow colorimetric sensor color focusing chitosan oligosaccharide lactate human urine
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Abstract	Although paper-based colorimetric sensors utilizing enzymatic reactions are well suited for real-field diagnosis, their widespread use is hindered by signal blurring at the detection spot due to the action of capillary forces on the liquid and the corresponding membrane. In this study, we eliminated signal losses commonly observed during enzyme-mediated colorimetric sensing and achieved pattern-free quantitative analysis of glucose and uric acid by mixing enzymes and color-forming reagents with chitosan oligosaccharide lactate (COL), which resulted in perfectly focused colorimetric signals at the detection spot, using asymmetric flow induced by changing the flow rate of the COL-treated paper. The targets were calibrated with 0–500 mg/dL of glucose and 0–200 mg/dL of uric acid, and the limit of detection was calculated to be 0.6 and 0.03 mg/dL, respectively. In human urine, the correlation has a high response between the measured and spiked concentrations, and the stability of the enzyme mixture including COL increased by 41% for glucose oxidase mixture and 29% for uricase mixture, compared to the corresponding mixtures without COL. Thus, the color focusing and pattern-free sensor, which have the advantages of easy fabrication, easy handling, and high stability, should be applied to real-field diagnosis.
AbstractList	Although paper-based colorimetric sensors utilizing enzymatic reactions are well suited for real-field diagnosis, their widespread use is hindered by signal blurring at the detection spot due to the action of capillary forces on the liquid and the corresponding membrane. In this study, we eliminated signal losses commonly observed during enzyme-mediated colorimetric sensing and achieved pattern-free quantitative analysis of glucose and uric acid by mixing enzymes and color-forming reagents with chitosan oligosaccharide lactate (COL), which resulted in perfectly focused colorimetric signals at the detection spot, using asymmetric flow induced by changing the flow rate of the COL-treated paper. The targets were calibrated with 0–500 mg/dL of glucose and 0–200 mg/dL of uric acid, and the limit of detection was calculated to be 0.6 and 0.03 mg/dL, respectively. In human urine, the correlation has a high response between the measured and spiked concentrations, and the stability of the enzyme mixture including COL increased by 41% for glucose oxidase mixture and 29% for uricase mixture, compared to the corresponding mixtures without COL. Thus, the color focusing and pattern-free sensor, which have the advantages of easy fabrication, easy handling, and high stability, should be applied to real-field diagnosis.
Author	Kim, Kihyeun Oh, Jusung Park, Jin-Ho Jang, Hyungjun Kim, Min-Gon
AuthorAffiliation	Department of Chemistry, School of Physics and Chemistry
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SubjectTerms	Chitosan - analogs & derivatives Color Colorimetry - instrumentation Colorimetry - methods Enzymes, Immobilized - chemistry Glucose - analysis Glucose - chemistry Glucose Oxidase - chemistry Humans Lactates - chemistry Limit of Detection Membranes, Artificial Urate Oxidase - chemistry Uric Acid - chemistry Uric Acid - urine Urine - chemistry
Title	Advanced Colorimetric Paper Sensors Using Color Focusing Effect Based on Asymmetric Flow of Fluid
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