Chemistry: electrical and wave energy – Apparatus – Electrolytic
Patent
1989-06-09
1992-06-02
Tung, T.
Chemistry: electrical and wave energy
Apparatus
Electrolytic
73 611C, 73 6152, 204294, 204409, 204411, 204412, 210656, G01N 2730
Patent
active
051184036
ABSTRACT:
A linear array electrode is provided for use in a flowcell detector. The electrode includes an electrically conductive material grooved to form array elements. The conductive material is embedded in an electrically insulating embedment such that a surface of each array element is exposed. The electrode includes means for connecting the electrically conductive material to a source of electric potential.
REFERENCES:
patent: 3202596 (1965-08-01), Canevari
patent: 3337440 (1967-08-01), Nestor
patent: 4233031 (1980-11-01), Matson et al.
Wang et al., "Ensembler of Carbon Paste Ultramicroelectrodes", J. Electroanal. Chem., 249 (1988), pp. 339-345.
D. E. Weisshaar et al., Kel-F-Graphite Composite Electrode as an Electrochemical Detector for Liquid Chromatography and Application to Phenolic Compounds, 53 Anal. Chem. 1809 (1981).
L. Falat et al., Voltammetric Differentiation of Ascorbic Acid and Dopamine at an Electrochemically Treated Graphite/Epoxy Electrode, 54 Anal. Chem. 2108 (1982).
J. Wang et al., Vitreous Carbon-Based Composite Electrode as an Electrochemical Detector for Liquid Chromatography, 298 J. Chromatogr. 79 (1984).
W. L. Caudill et al., Flow Rate Independent Amperometric Cell, 54 Anal. Chem. 2532 (1982).
A. M. Bond et al., Theory and Experimental Characterization of Linear Gold Microelectrodes with Submicrometer Thickness, 90 J. Phys. Chem. 2911 (1986).
W. Thormann et al., Voltammetry at Linear Gold and Platinum Microelectrode Arrays Produced by Lithographic Techniques, 57 Anal. Chem. 2764 (1985).
L. E. Fosdick et al., Optimization of Microelectrode Array Geometry in a Rectangular Flow Channel Detector, 58 Anal. Chem. 2481 (1986).
L. E. Fosdick et al., Amperometric Response of Microlithographically Fabricated Microelectrode Array Flow Sensors in a Thin-Layer Channel, 58 Anal. Chem. 2750 (1986).
M. DeAbreu et al., =-Gold-Electrode-Array Thin-Layer Flow Cell, 59 Anal. Chem. 204 (1987).
S. Moldoveanu et al., Numerical Simulation of Convective Diffusion at a Microarray Channel Electrode, 185 J. Electroanal. Chem. 239 (1985).
J. L. Anderson et al., Hydrodynamic Voltammetry at an Interdigitated Electrode Array in a Flow Channel, Part 1. Numerical Simulation, 196 J. Electroanal. Chem. 213 (1985).
D. K. Cope et al., Calculation of Convective-Diffusion Current at Multiple Strip Electrodes in a Rectangular Flow Channel, Implications for Electrochemical Detection, 205 J. Electroanal. Chem. 101 (1986).
E. M. Sparrow, Analysis of Laminar Forced Convection Heat Transfer in Entrance Region of Flat Rectangular Ducts, National Advisory Committee for Aeronautics TN 3331, (1955).
S. G. Weber et al., The Behavior of an Electrochemical Detector Used in Liquid Chromatography and Continuous Flow Voltammetry, Part 1. Mass Transport-limited Current, 100 Anal. Chim. Acta 531 (1978).
R. A. J. Sambell et al., Carbon Fiber Composites with Ceramic and Glass Matrixes. 1. Discontinuous Fibers, 7 J. Mater. Sci. 663 (1972).
R. A. J. Sambell et al., Carbon Fiber Composites with Ceramic and Glass Matrixes. 2. Continuous Fibers, 7 J. Mater. Sci. 676 (1972).
Magee, Jr. Leo J.
Osteryoung Janet G.
The Research Foundation of State Univ. of N.Y.
Tung T.
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