Cascading of nanofilm processors by fluidic coupling elements

•Nanofilm processors are cascaded.•The cascade leads theoretically to a nanofilm processor with infinite lengths.•A new electrochemical method is presented. Nanofilm processors are based on the lateral anodic self-oxidation of a nanoscale aluminum electrode in the presence of a graphite counter elec...

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Veröffentlicht in:	Sensors and actuators. A. Physical. 2019-01, Vol.285, p.283-288
Hauptverfasser:	Remme, Fabian, Schoo, Christian, Althaus, Christian, Kopp, Olga, Knoll, Meinhard
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Aluminum alloys Anodizing Cascade Coupling Electrodes Fluidic coupling element Graphite Lateral anodic oxidation Microprocessors Nanofilm processor Oxidation Processors Velocity
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creator	Remme, Fabian Schoo, Christian Althaus, Christian Kopp, Olga Knoll, Meinhard
description	•Nanofilm processors are cascaded.•The cascade leads theoretically to a nanofilm processor with infinite lengths.•A new electrochemical method is presented. Nanofilm processors are based on the lateral anodic self-oxidation of a nanoscale aluminum electrode in the presence of a graphite counter electrode. The oxidation process operates slowly over a long period of time. There are electrical and fluidic limitations of the oxidation length and velocity during the lateral anodic self-oxidation process. With the integration of fluidic coupling elements, it is possible to realize a cascade of equivalent nanofilm processors, theoretically leading to a nanofilm processor with infinite lengths.
doi_str_mv	10.1016/j.sna.2018.11.033
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subjects	Aluminum Aluminum alloys Anodizing Cascade Coupling Electrodes Fluidic coupling element Graphite Lateral anodic oxidation Microprocessors Nanofilm processor Oxidation Processors Velocity
title	Cascading of nanofilm processors by fluidic coupling elements
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