Biology Reference
In-Depth Information
37. J. Das, H. Kim, K. Jo, K. H. Park, S. Jon, K. Lee, and H. Yang, Fast catalytic
and electrocatalytic oxidation of sodium borohydride on palladium
nanoparticlesanditsapplicationtoultrasensitiveDNAdetection,
Chem.
Comm.
6394-6395 (2009).
38. P. Lo, S. A. Kumar, and S. Chen, Amperometric determination of H
2
O
2
at nano TiO
2
/DNA/thionin nanocomposite modified electrode,
Colloids
Interf., B: Biointerfaces
66
,266-273 (2008).
39. H. Zhou, X. Gan, J. Wang, X. Zhu, and G. Li, Hemoglobin based hydrogen
peroxide biosensor tuned by the photovoltaic effect of nano titanium
dioxide,
Anal. Chem.
77
,6102-6104 (2005).
40. W. Lu, Y. Jin, G. Wang, D. Chen, and J. H. Li, Enhanced photoelectro-
chemical method for linear DNA hybridization detection using Au-
nanoparticle labelled DNA as probe onto titanium dioxide electrode,
Biosens. Bioelectron.
23
,1534-1539 (2008).
41. Y. Hu, T. Yang, X. Wang, and K. Jiao, Highly sensitive indicator-
free impedance sensing of DNA hybridization based on poly (m-
aminobenzenosulfonic acid)/TiO
2
nanosheetmembranes with pulse
potentiostaticmethodpreparation,
Chem. Eur. J.
16
,1992-1999(2010).
42. Z. Gao and Z. Yang, Detection of microRNAs using electrocatalytic NPs
tags.
Anal. Chem.
78
,1470-1477(2006).
43. E. A. Hunt, A. M. Goulding, and S. K. Deo, Direct detection and
quantification of microRNAs,
Anal. Biochem.
387
,1-12 (2009).
44. H. Zhu, J. Wang, and G. Xu, Fast synthesis of Cu
2
O hollow microspheres
and their application in DNA biosensor of Hepatitis B virus,
Crystal
Growth and Design
9
,633-638 (2009).
45. S. Suwansa-ard, Y. Xiang, R. Bash, P. Thavarungkul, P. Kanatharana, and
J. Wang, Prussian Blue dispersed sphere catalytic labels for amplified
electronic detection of DNA,
Electroanalysis
20
,308-312 (2008).
46. X. Gan, T. Liu, X. Zhu, and G. Li, An electrochemical biosensor for Nitric
Oxide based on silver nanoparticles and hemoglobin,
Anal. Sciences
20
,
1271-1275(2004).
47. A.delaEscosura-Muniz,M.Maltez-daCosta,andA.Merko¸i,Controlling
the electrochemical deposition of silver onto gold nanoparticles: reduc-
ing interferences and increasing the sensitivity of magnetoimmuno
assays,
Biosen. Bioelectron.
24
,2475-2482(2009).
48. M. Maltez-da Costa, A. de la Escosura-Muniz, and A. Merko¸i,
Electrochemical quantification of gold nanoparticles based on their
catalytic properties on hydrogen formation: application in magneto
immunoassays,
Electrochem. Commun.
12
,1501-1504 (2010).
