Magnetic control of electrocatalytic and bioelectrocatalytic processes

Itamar Willner; Eugenii Katz

doi:10.1002/anie.200201602

Magnetic control of electrocatalytic and bioelectrocatalytic processes

Itamar Willner^*, Eugenii Katz

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Short survey › peer-review

199 Scopus citations

Abstract

Bioelectronics is a rapidly progressing interdisciplinary research field that has important implications for the development of biosensors, biofuel cells, biomaterial-based computers, and bioelectronic devices. Magneto-controlled molecular electronics and bioelectronics are new topics that examine the effect of an external magnetic field on electrocatalytic and bioelectrocatalytic processes of functionalized magnetic particles associated with electrodes. In this article we describe the progress in the developments of magneto-switchable electrocatalytic and bioelectrocatalytic transformations, and the effects of the rotation of the magnetic particles on the electrocatalytic and bioelectrocatalytic processes are discussed. Finally, the implications of the results on the development of biosensors, amplified immunosensors, and DNA sensors are described.

Original language	English
Pages (from-to)	4576-4588
Number of pages	13
Journal	Angewandte Chemie - International Edition
Volume	42
Issue number	38
DOIs	https://doi.org/10.1002/anie.200201602
State	Published - 6 Oct 2003

Keywords

Biosensors
Electrochemistry
Magnetic particles
Nanotechnology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/anie.200201602

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AB - Bioelectronics is a rapidly progressing interdisciplinary research field that has important implications for the development of biosensors, biofuel cells, biomaterial-based computers, and bioelectronic devices. Magneto-controlled molecular electronics and bioelectronics are new topics that examine the effect of an external magnetic field on electrocatalytic and bioelectrocatalytic processes of functionalized magnetic particles associated with electrodes. In this article we describe the progress in the developments of magneto-switchable electrocatalytic and bioelectrocatalytic transformations, and the effects of the rotation of the magnetic particles on the electrocatalytic and bioelectrocatalytic processes are discussed. Finally, the implications of the results on the development of biosensors, amplified immunosensors, and DNA sensors are described.

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Magnetic control of electrocatalytic and bioelectrocatalytic processes

Abstract

Keywords

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