Journal
APPLIED SURFACE SCIENCE
Volume 634, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.apsusc.2023.157650
Keywords
Glucose sensing; Hollow Ni(OH) 2 @CuS; Multi-components; High sensitivity; Synergistic effect
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Excess levels of glucose in the blood can lead to complications like heart disease, kidney failure, and blindness. Therefore, it is important to measure blood glucose levels quantitatively. By employing coordinating etching and precipitating process, sulfidation reaction, and utilizing various glucose sensing materials, an innovative sensor called H-Ni(OH)2@CuS has been developed, which exhibits high sensitivity, wide linear range, and excellent performance in terms of reproducibility and interference rejection.
Excess levels of glucose in the blood can result in various complications such as heart disease, kidney failure, and blindness. Therefore, it is crucial to quantitatively measure blood glucose levels. At room temperature, by employing coordinating etching and precipitating process, and sulfidation reaction, we have developed a range of glucose sensing materials, including hollow Ni(OH)2@CuS (H-Ni(OH)2@CuS), Cu2O cubes, hollow CuS (H-CuS), hollow Ni(OH)2 (H-Ni(OH)2), and core-shell Cu2O@Ni(OH)2. Electrochemical tests showed that H-Ni (OH)2@CuS has the highest glucose sensing sensitivity (2738.57 & mu;A mM-1 cm- 2) and the widest linear range (0.01-6.64 mM), with a detection limit of 3.3 & mu;M (LOD = 3 & sigma;/S) compared with those of other materials. The superior electrochemical performance of H-Ni(OH)2@CuS can be attributed to the unique advantages of the hollow structure and the synergistic effect among multi-components in the heterojunction. The H-Ni(OH)2@CuS based sensor also demonstrates reliable reproducibility, long-term stability, and excellent anti-interference capability. Furthermore, it shows acceptable accuracy in detecting actual human serum samples, indicating its important practical application value.
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