Fabrication and Use of Nanometer-Sized Electrodes in Electrochemistry
Author:
Affiliation:
1. Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, CA 91125
Publisher
American Association for the Advancement of Science (AAAS)
Subject
Multidisciplinary
Reference62 articles.
1. ANDRIEUX, C.P., FAST SWEEP CYCLIC VOLTAMMETRY AT ULTRA-MICROELECTRODES - EVALUATION OF THE METHOD FOR FAST ELECTRON-TRANSFER KINETIC MEASUREMENTS, JOURNAL OF ELECTROANALYTICAL CHEMISTRY 243: 321 (1988).
2. ANDRIEUX, C.P., FAST CHEMICAL STEPS COUPLED WITH OUTER-SPHERE ELECTRON TRANSFERS - APPLICATION OF FAST SCAN VOLTAMMETRY AT ULTRAMICROELECTRODES TO THE CLEAVAGE OF AROMATIC HALIDE ANION RADICALS IN THE MICROSECOND LIFETIME RANGE, JOURNAL OF PHYSICAL CHEMISTRY 92: 5987 (1988).
3. ANDRIEUX, C.P., FAST POTENTIAL STEP TECHNIQUES AT ULTRAMICROELECTRODES - APPLICATION TO THE KINETIC CHARACTERIZATION OF ELECTROCHEMICALLY GENERATED SHORT-LIVED SPECIES, JOURNAL OF PHYSICAL CHEMISTRY 92: 5992 (1988).
4. ANGELL, D.H., KINETICS OF FERROUS/FERRIC AND FERRO/FERRICYANIDE REACTIONS AT PLATINUM AND GOLD ELECTRODES .1. KINETICS AT BARE-METAL SURFACES, JOURNAL OF ELECTROANALYTICAL CHEMISTRY 35: 55 (1972).
5. BARD, A.J., ELECTROCHEMICAL METH: CH5 (1980).
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