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Direct electron transfer of hemoglobin

Biosensors based on direct electron transfer of hemoglobin... [Pg.554]

Figure 17 (A) Layer by layer assembly process of Hb/( Fe304 /chitosan-phytic acid) film. (B) CVs of (Fe304 /chitosan-phytic acid)4 (a) Hb/( chitosan-phytic acid) 4 and Hb/( Fe304 /chitosan-phytic acid) 4 modified GCE at pH 7.0 PBS, scan rate 100 mV s 1 (Reprinted from Electrochemistry Communications, 8, G. Zhao, J.J. Xu, H. Y. Chen, Fabrication, characterization of Fe304 multilayer film and its application in promoting direct electron transfer of hemoglobin, 149,152, Copyrights (2005) with permission from Elsevier. Figure 17 (A) Layer by layer assembly process of Hb/( Fe304 /chitosan-phytic acid) film. (B) CVs of (Fe304 /chitosan-phytic acid)4 (a) Hb/( chitosan-phytic acid) 4 and Hb/( Fe304 /chitosan-phytic acid) 4 modified GCE at pH 7.0 PBS, scan rate 100 mV s 1 (Reprinted from Electrochemistry Communications, 8, G. Zhao, J.J. Xu, H. Y. Chen, Fabrication, characterization of Fe304 multilayer film and its application in promoting direct electron transfer of hemoglobin, 149,152, Copyrights (2005) with permission from Elsevier.
C. Zhao, L. Wan, Q. Wang, S. Liu, and K. Jiao, Highly sensitive and selective uric acid biosensor based on direct electron transfer of hemoglobin-encapsulated chitosan-modified glassy carbon electrode. Anal. Sci., 25 (8), 1013-1017,2009. [Pg.124]

Yu, J. J., T. Zhao, F. Q. Zhao, and B. Z. Zeng, 2008. Direct electron transfer of hemoglobin immobilized in amesocellnlar sUiceons foams snpported room temperature ionic liquid matrix and the electrocatalytic rednction of H2O2. Electrochim Acta 53 5760-65. [Pg.303]

Liu et al. have demonstrated that the direct electron transfer reactivity of the immobilized hemoglobin (Hb) can be effectively enhanced by the addition of MWNTs into the PUE film (118). Biosensors based on the direct electron transfer of the immobilized proteins show good analytical performance, including high sensitivity, acceptable fabrication reproducibility, and storage stability. [Pg.166]

C. Cai and J. Chen, Direct electron transfer and bioelectrocatalysis of hemoglobin at a carbon nanotube electrode. Anal. Biochem. 325, 285-292 (2004). [Pg.521]

Gu, H.Y., Yu, A.M., and Chen, H.Y. 2001. Direct electron transfer and characterization of hemoglobin immobilized on a Au colloid-cysteamine-modified gold electrode. [Pg.109]

Due to high biocompability of NiOx nanoparticles, we investigate the direct electron transfer processes of immobilized hemoglobin and catalase onto glassy carbon electrodes modified with nickel oxide nanosize materials [255,256],... [Pg.192]

See other pages where Direct electron transfer of hemoglobin is mentioned: [Pg.554]    [Pg.564]    [Pg.50]    [Pg.162]    [Pg.531]    [Pg.541]    [Pg.611]    [Pg.61]    [Pg.531]    [Pg.541]    [Pg.198]    [Pg.554]    [Pg.564]    [Pg.50]    [Pg.162]    [Pg.531]    [Pg.541]    [Pg.611]    [Pg.61]    [Pg.531]    [Pg.541]    [Pg.198]    [Pg.501]    [Pg.674]    [Pg.129]    [Pg.150]    [Pg.164]    [Pg.173]    [Pg.180]    [Pg.201]    [Pg.227]    [Pg.308]    [Pg.372]    [Pg.67]    [Pg.478]    [Pg.478]    [Pg.116]    [Pg.403]    [Pg.564]    [Pg.139]   


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Biosensors based on direct electron transfer of hemoglobin

Direct electron transfer of protein hemoglobin

Electron directions

Hemoglobin, direct electron transfer

Of hemoglobin

Transfer of electron

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