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34. I. Tanaka, et al. Electronic structure of indium oxide using cluster calculations.
Physical Review B, 56(7): pp 3536-3539, 1997.
35. C. Li, et al. In
2
O
3
nanowires as chemical sensors. Applied Physics Letters, 82: 2003.
36. M. Rouhinizadeh. et al. Applying indium oxide nanowires as sensitive and selective
redox protein sensors. In: 17th IEEE Intertional Conference on Micro Electro
Mechanical Systems MEMS 2004. Maastricht, The Netherlands.
37. Q. Lin, et al. Experiments and simulations of MEMS thermal sensors for wall shear-
stress measurements in aerodynamic control applications. Journal of Micromechanics
and Microengineering, 14(12): pp 1640-1649, 2004.
38. D. T. Gjerde and J. S. Fritz. Ion chromatography, 3rd ed, Weinheim: Wiley-VCH,
2000, pp 123-125.
39. Q. He, C. Pang, Y. C. Tai, and T. D. Lee. Ion liquid chromatography on-a-chip with
beads-packed parylene column. In: Proceedings of The 17th IEEE International
Conference on MicroElectroMechanical Systems (MEMS2004). Maastricht, The
Netherlands.
40. A. Sevanian, et al. Low density lipoprotein (LDL) modification: basic concepts and
relationship to atherosclerosis. Blood Purification, 17(2-3): pp 66-78, 1999.
41. I. Willner, et al. Biofuel cell based on glucose oxidase and microperoxidase-11
monolayer-fundionalized electrodes. Journal of the Chemical Society-Perkin Transac-
tions, 2(8): pp 1817-1822, 1998.
42. B. Willner and I. Willner. Reconstituted redox enzymes on electrodes: from funda-
mental understanding of electron transfer at functionalized electrode interfaces to
biosensor and biofuel cell applications. In: I. Willner and E. Katz (eds), Bioelectronics.
Weinheim: Wiley-VCH. 2005. pp 35-98.
43. B. Willner, et al. Electrical contacting of redox proteins by nanotechnological means.
Current Opinion in Biotechnology, 17(6): pp 589-596, 2006.
44. D. Ivnitski, et al. Glucose oxidase anode for biofuel cell based on direct electron
transfer. Electrochemistry Communications, 8(8): pp 1204-1210, 2006.
45. Y. M. Yan, et al. Carbon-nanotube-based glucose/O-2 biofuel cells. Advanced
Materials, 18(19): pp 2639, 2006.
46. P. Diao, et al. Chemically assembled single-wall carbon nanotubes and their electro-
chemistry. ChemPhysChem, 3(10): pp 898-901, 2002.
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