Magnetic control of chemical transformations: Application for programmed electrocatalysis and surface patterning

Eugenii Katz; Itamar Willner

doi:10.1016/S1388-2481(01)00247-8

Magnetic control of chemical transformations: Application for programmed electrocatalysis and surface patterning

Eugenii Katz^*, Itamar Willner

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Lateral translocation of electrocatalyst-modified magnetic particles was achieved upon application of an external magnetic field. Programmed electrocatalytic reactions at different electrodes or different areas of an electrode were performed. The spatially controlled electrocatalytic reactions were exemplified with NADH electrocatalytic oxidation and with bioelectrocatalytic electrode patterning. The method will be particularly useful for programmed electrochemical reactions at interdigitated electrodes.

Original language	English
Pages (from-to)	683-685
Number of pages	3
Journal	Electrochemistry Communications
Volume	3
Issue number	12
DOIs	https://doi.org/10.1016/S1388-2481(01)00247-8
State	Published - 2001

Keywords

Bioelectrocatalysis
Electrocatalysis
Magnetic particles
Patterning
Voltammetry

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10.1016/S1388-2481(01)00247-8

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abstract = "Lateral translocation of electrocatalyst-modified magnetic particles was achieved upon application of an external magnetic field. Programmed electrocatalytic reactions at different electrodes or different areas of an electrode were performed. The spatially controlled electrocatalytic reactions were exemplified with NADH electrocatalytic oxidation and with bioelectrocatalytic electrode patterning. The method will be particularly useful for programmed electrochemical reactions at interdigitated electrodes.",

keywords = "Bioelectrocatalysis, Electrocatalysis, Magnetic particles, Patterning, Voltammetry",

author = "Eugenii Katz and Itamar Willner",

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AU - Katz, Eugenii

AU - Willner, Itamar

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AB - Lateral translocation of electrocatalyst-modified magnetic particles was achieved upon application of an external magnetic field. Programmed electrocatalytic reactions at different electrodes or different areas of an electrode were performed. The spatially controlled electrocatalytic reactions were exemplified with NADH electrocatalytic oxidation and with bioelectrocatalytic electrode patterning. The method will be particularly useful for programmed electrochemical reactions at interdigitated electrodes.

KW - Bioelectrocatalysis

KW - Electrocatalysis

KW - Magnetic particles

KW - Patterning

KW - Voltammetry

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IS - 12

ER -

Magnetic control of chemical transformations: Application for programmed electrocatalysis and surface patterning

Abstract

Keywords

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