Amperometric oxygen biosensor based on hemoglobin encapsulated in nanosized grafted starch particles

The authors describe a nanosized oxygen biosensor based on grafted starch particles with encapsulated hemoglobin (GS-Hb). Transmission electron microscopy showed the GS-Hb particles to have a typical diameter of 573 nm. UV–vis absorption spectra showed that the hemoglobin in GS-Hb retains its biolog...

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Bibliographic Details
Published in:Mikrochimica acta (1966) 2016-01, Vol.183 (1), p.353-359
Main Authors: Liu, Xiaojun, Pan, Zhongqin, Dong, Zenglin, Lu, Yannan, Sun, Qiaoling, Wu, Tingting, Bao, Ning, He, Hong, Gu, Haiying
Format: Article
Language:English
Subjects:
Absorption spectra
Analytical Chemistry
Biological activity
Biosensors
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Chitosan
Detectors
Electrical measurement
Electron microscopy
Encapsulation
Erythrocytes
Glassy carbon
Glycosylated hemoglobin
Hemoglobin
Microengineering
Nanochemistry
Nanotechnology
Original Paper
Oxygen
Signal to noise ratio
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Summary:The authors describe a nanosized oxygen biosensor based on grafted starch particles with encapsulated hemoglobin (GS-Hb). Transmission electron microscopy showed the GS-Hb particles to have a typical diameter of 573 nm. UV–vis absorption spectra showed that the hemoglobin in GS-Hb retains its biological activity in terms of carrying and releasing oxygen. Cyclic voltammetric studies were performed with GS-Hb particles placed in a chitosan matrix on a glassy carbon electrode, revealing a pair of nearly reversible redox peaks. At a working potential of −0.40 V (vs. SCE), a linear response is found over the 0.97 μM to 0.35 mM oxygen concentration range, and the lower detection limit is 0.32 μM (~5 ppb; at an S/N ratio of 3). This range is wider than that produced when using red blood cells. In addition, the GS-Hb particles have a better oxygen-carrying ability, which may pave the way to the creation of oxygen carriers for use in transfusions. Graphical Abstract A glassy carbon electrode modified with hemoglobin in starch particles in a chitosan matrix shows excellent amperometric response to oxygen and also displays improved oxygen-carrying capability (compared to red blood cells).
ISSN:0026-3672
1436-5073
DOI:10.1007/s00604-015-1655-9