Design and fabrication of nickel microdisk-arrayed diamond electrodes for a non-enzymatic glucose sensor based on control of diffusion profiles.

[1]  Joseph Wang Electrochemical glucose biosensors. , 2008, Chemical reviews.

[2]  Kang Wang,et al.  Highly selective amperometric glucose microdevice derived from diffusion layer gap electrode. , 2008, Biosensors & bioelectronics.

[3]  Aicheng Chen,et al.  Nonenzymatic electrochemical glucose sensor based on nanoporous PtPb networks. , 2008, Analytical chemistry.

[4]  S. Kitazawa,et al.  Fabrication, characterization, and application of boron-doped diamond microelectrodes for in vivo dopamine detection. , 2007, Analytical chemistry.

[5]  Chen Yang,et al.  Study of the nonenzymatic glucose sensor based on highly dispersed Pt nanoparticles supported on carbon nanotubes. , 2007, Talanta.

[6]  Peixiang Cai,et al.  A sensitive nonenzymatic glucose sensor in alkaline media with a copper nanocluster/multiwall carbon nanotube-modified glassy carbon electrode. , 2007, Analytical biochemistry.

[7]  Kui Jiao,et al.  Flow-injection analysis of glucose without enzyme based on electrocatalytic oxidation of glucose at a nickel electrode. , 2007, Talanta.

[8]  T. Ivandini,et al.  Selective detection method derived from a controlled diffusion process at metal-modified diamond electrodes. , 2006, Analytical chemistry.

[9]  M. Baldo,et al.  A steady-state voltammetric procedure for the determination of hydrogen ions and total acid concentration in mixtures of a strong and a weak monoprotic acid , 2006 .

[10]  T. Ivandini,et al.  Electrochemical detection of arsenic(III) using iridium-implanted boron-doped diamond electrodes. , 2006, Analytical chemistry.

[11]  B. Jena,et al.  Enzyme-free amperometric sensing of glucose by using gold nanoparticles. , 2006, Chemistry.

[12]  Sejin Park,et al.  Electrochemical non-enzymatic glucose sensors. , 2006, Analytica chimica acta.

[13]  T. Ivandini,et al.  Pt-implanted boron-doped diamond electrodes and the application for electrochemical detection of hydrogen peroxide , 2005 .

[14]  F. Marken,et al.  Microwave activation of the electro-oxidation of glucose in alkaline media. , 2005, Physical chemistry chemical physics : PCCP.

[15]  Kang Wang,et al.  A dual-electrode approach for highly selective detection of glucose based on diffusion layer theory: experiments and simulation. , 2005, Chemistry.

[16]  Kang Wang,et al.  Selective glucose detection based on the concept of electrochemical depletion of electroactive species in diffusion layer. , 2005, Biosensors & bioelectronics.

[17]  Akira Fujishima,et al.  Modified diamond electrodes for electrolysis and electroanalysis applications , 2004 .

[18]  Sejin Park,et al.  Nonenzymatic glucose detection using mesoporous platinum. , 2003, Analytical chemistry.

[19]  A. Fujishima,et al.  Electrochemical glucose detection using nickel-implanted boron-doped diamond electrodes , 2002 .

[20]  Kazuhito Hashimoto,et al.  Electrochemical Behavior of Highly Conductive Boron‐Doped Diamond Electrodes for Oxygen Reduction in Alkaline Solution , 1998 .

[21]  Theodore Kuwana,et al.  Nickel-titanium alloy electrode as a sensitive and stable LCEC detector for carbohydrates , 1994 .

[22]  Tsuyohito Ito,et al.  Nickel-chemical vapour-deposited diamond interface studied by electron energy loss spectroscopy , 1993 .

[23]  Greg M. Swain,et al.  The electrochemical activity of boron-doped polycrystalline diamond thin film electrodes , 1993 .