Perovskite LaTiO3-Ag0.2 nanomaterials for nonenzymatic glucose sensor with high performance

Biosensors and Bioelectronics

Volumn 48, Issue , 2013, Pages 56-60

  Wang, Yin zhu ^a,b   Zhong, Hui ^a,b   Li, Xiao mo ^a   Jia, Fei fei ^a   Shi, Yi xiang ^a   Zhang, Wei guang ^a   Cheng, Zhi peng ^a   Zhang, Li li ^a   Wang, Ji kui ^b  

^a HUAIYIN NORMAL UNIVERSITY   (China)

^b NANJING TECH UNIVERSITY   (China)

Author keywords

Glucose perovskite LaTiO3 Ag0.2; Nonenzymatic electrocatalytic oxidation

Indexed keywords

ELECTRO-CATALYTIC OXIDATION; ELECTROCHEMICAL CHARACTERIZATIONS; ELECTROCHEMICAL DETECTION; GLASSY CARBON ELECTRODES; INTERFERING SPECIES; MODIFIED ELECTRODES; NON-ENZYMATIC GLUCOSE SENSORS; NON-ENZYMATIC SENSORS;

CHRONOAMPEROMETRY; CYCLIC VOLTAMMETRY; ELECTROCATALYSIS; ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY; GLASS MEMBRANE ELECTRODES; GLUCOSE; GLUCOSE SENSORS; NANOSTRUCTURED MATERIALS; ORGANIC ACIDS; SCANNING ELECTRON MICROSCOPY; SENSORS; X RAY DIFFRACTION;

PEROVSKITE;

ASCORBIC ACID; DOPAMINE; GLUCOSE; NANOMATERIAL; PEROVSKITE; SILVER; SILVER CHLORIDE; TITANIUM DIOXIDE; URIC ACID;

ARTICLE; CATALYSIS; COMPOSITE MATERIAL; ELECTRODE; GLUCOSE BLOOD LEVEL; GLUCOSE OXIDATION; GLUCOSE SENSOR; HUMAN; LIMIT OF DETECTION;

BIOSENSING TECHNIQUES; BLOOD GLUCOSE; CALCIUM COMPOUNDS; CATALYSIS; ELECTRODES; HUMANS; LANTHANUM; LIMIT OF DETECTION; NANOPARTICLES; OXIDATION-REDUCTION; OXIDES; SILVER; TITANIUM;

EID: 84877342924     PISSN: 09565663     EISSN: 18734235     Source Type: Journal    
DOI: 10.1016/j.bios.2013.03.081     Document Type: Article

References (24)

1. Bohnke O., Bohnke C., Duroy H. Chemistry of Materials 2001, 13:1593-1599.
2. Cao X., Wang N. Electrochemistry Communications 2010, 12:1581-1584.
3. Clark L.C., Lyons C. Annals of the New York Academy of Sciences 1962, 102:29-45.
4. DeMott J.M., Jahngen E.G.E. Electroanalysis 2005, 17:599-606.
5. Ding Y., Liu Y.X., Parisi J., Zhang L.C., Lei Y. Biosensors and Bioelectronics 2011, 28:393-398.
6. Gu H.Y., Yu A.M., Chen H.Y. Electroanalytical Chemistry 2001, 516:119-126.
7. Jia M.Z., Wang T., Liang F.F., Hu J.B. Electroanalysis 2012, 24:1864-1868.
8. Jiang L.C., Zhang W.D. Biosensors and Bioelectronics 2010, 25:1402-1407.
9. Li Y., Song Y.Y., Yang C., Xia X.H. Electrochemistry Communications 2007, 9:981-988.
10. Lin C.Y., Lai Y.H., Balamurugan A., Vittal R., Lin C.W., Ho K.C. Talanta 2010, 82:340-347.
11. Lu L.M., Zhang L., Qu F.L., Lu H.X., Zhang X.B., Wu Z.S. Biosensors and Bioelectronics 2009, 25:218-223.
12. Lu L.M., Li H.B., Qu F., Zhang X.B., Shen G.L., Yu R.Q. Biosensors and Bioelectronics 2011, 26:3500-3504.
13. Lu L.M., Zhang X.B., Shen G.L., Yu R.Q. Analytica Chimica Acta 2012, 715:99-104.
14. Pang H., Lu Q.Y., Wang J.J., Li Y.C., Gao F. Chemical Communications 2010, 46:2010-2012.
15. Song Y.Y., Zhang D., Gao W., Xia X.H. Chemistry-A European Journal 2005, 11:2177-2182.
16. Sumio K., Masataka O., Mikio S. Catalysis Surveys from Asia 2004, 8(l):27-34.
17. Wang B.J., Gu S.Q., Ding Y.P., Chu Y.L., Zhang Z., Ba X., Zhang Q.L., Li X.R. Analyst 2013, 138:362-367.
18. Wang Y.L., Xu Y.H., Luo L.Q., Ding Y.P., Liu X.J., Huang A.Q. Sensors and Actuators B 2010, 151:65-70.
19. Wilson R., Turner A.P.F. Biosensors and Bioelectronics 1992, 7:165-185.
20. Ye D.X., Xu Y.H., Luo L.Q., Ding Y.P., Wang Y.L., Li X.J., Xing L.J., Peng J.W. Colloids and Surfaces B 2012, 89:10-14.
21. Yuan J.H., Wang K., Xia X.H. Advanced Functional Materials 2005, 15:803-809.
22. Zhang Z., Gu S.Q., Ding Y.P., Jin J.D. Analytica Chimica Acta 2012, 745:112-117.
23. Zhu L.D., Tian C.Y., Yang D.X., Jiang X.Y., Yang R.L. Electroanalysis 2008, 20:2518-2525.
24. Zhu X.L., Gan X., Wang J., Chen T., Li G.X. Journal of Molecular Catalysis A: Chemical 2005, 239:201-204.