Journal
BIOSENSORS & BIOELECTRONICS
Volume 141, Issue -, Pages -Publisher
ELSEVIER ADVANCED TECHNOLOGY
DOI: 10.1016/j.bios.2019.111472
Keywords
mu PAD; Temporally resolved chemiluminescence; High resolution; Multiplexed analysis
Categories
Funding
- National Natural Science Foundation of China [21605032]
- Fundamental Research Funds for the Central Universities, China [JZ2019HGTB0057]
- State Key Laboratory of Analytical Chemistry for Life Science, Nanjing University [SKLACLS1903]
- open project of Anhui province key laboratory of advanced catalytic materials and reaction engineering [45000-411104/007]
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In this work, a double-layered three-dimensional (3D) microfluidic paper-based analytical device (mu PAD) with high resolution temporally resolved chemiluminescence (CL) emissions were designed for multiplexed CL analysis. The temporally resolved CL emissions were obtained by virtue of the 3D branched microfluidic channel design, which create time delays for luminol transported from one detection zone to another. The peak intensity and peak shape of the temporally resolved CL emissions were quite stable and base-line separated with resolution as high as 21.2-24.4. Then, the fabricated mu PAD was applied to multiplexed determination of glucose, lactate, cholesterol, and choline as model analytes. The sample was added to four detection zone modified with CL catalyst cobalt ion and different oxidase by virtue of chitosan. When luminol flowed to mu PAD, four temporally resolved CL peaks were successively generated from the cobalt ion catalyzed CL reactions between luminol and generated H2O2 from the specific enzymatic reactions between the oxidase and the analytes. The generated four CL emission peaks in the CL kinetic curve increased in proportion to the concentrations of glucose, lactate, cholesterol, and choline, respectively. Finally, four linear calibration curves were obtained for the detection of glucose (0.01-1.0 mmol/L), lactate (0.02-5.0 mmol/L), cholesterol (0.01-0.4 mmol/L), and choline (0.001-1.0 mmol/L). The detection limits were as low as 8 mu mol/L, 15 mu mol/L, 6 mu mol/L, and 0.07 mu mol/L for glucose, lactate, choline, and cholesterol detection, respectively. The present work provides a new strategy for the fabrication of simple and sensitive 3D mu PAD with high resolution temporally resolved CL emissions for multiplexed CL analysis, which holds great application potential for point-of-care diagnosis.
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