Fabrication of Nanoelectrodes and Metal Clusters by Electrodeposition

Most nanometer‐sized electrodes reported to date are made from either Pt or Au. For technical reasons, it is difficult to make nanoelectrodes from many other metals (e.g. Hg) by heat‐sealing microwires into glass capillaries or by other established techniques. Such nanoelectrodes can be useful for a...

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Veröffentlicht in:	Chemphyschem 2010-09, Vol.11 (13), p.3011-3017
Hauptverfasser:	Velmurugan, Jeyavel, Mirkin, Michael V.
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Sprache:	eng
Schlagworte:	Chemistry Electrochemistry electrodeposition Electrodes: preparations and properties Exact sciences and technology General and physical chemistry nanoelectrodes scanning electrochemical microscopy voltammetry
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creator	Velmurugan, Jeyavel Mirkin, Michael V.
description	Most nanometer‐sized electrodes reported to date are made from either Pt or Au. For technical reasons, it is difficult to make nanoelectrodes from many other metals (e.g. Hg) by heat‐sealing microwires into glass capillaries or by other established techniques. Such nanoelectrodes can be useful for a wide range of analytical and physicochemical applications from high sensitivity stripping analysis (Hg) to pH nano‐sensors to studies of electrocatalysis. In this paper, nanometer‐sized metal electrodes are prepared by electrodeposition of Hg or Pt on disk‐type, polished or recessed nanoelectrodes. The deposition of Hg is monitored chronoamperometrically to produce near‐hemispherical electrodes, which are characterized by voltammetry and scanning electrochemical microscopy (SECM). The well‐shaped deposits of a solid metal (Pt) at Au nanoelectrodes are prepared and imaged by scanning electron microscopy (SEM). Catalytic metal clusters can also be prepared using this methodology. Electrodes with the metal surface flush with glass insulator, most suitable for quantitative voltammetric and SECM experiments are fabricated by electrodeposition of a metal inside an etched nanocavity. Electrodeposition at nanoelectrodes: Nanometer‐sized metal electrodes are prepared by electrodeposition of Hg or Pt on polished or recessed nanoelectrodes. The deposition of Hg is monitored chronoamperometrically to produce flat disk‐type electrodes (see figure), which are characterized by voltammetry and scanning electrochemical microscopy.
doi_str_mv	10.1002/cphc.201000321
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For technical reasons, it is difficult to make nanoelectrodes from many other metals (e.g. Hg) by heat‐sealing microwires into glass capillaries or by other established techniques. Such nanoelectrodes can be useful for a wide range of analytical and physicochemical applications from high sensitivity stripping analysis (Hg) to pH nano‐sensors to studies of electrocatalysis. In this paper, nanometer‐sized metal electrodes are prepared by electrodeposition of Hg or Pt on disk‐type, polished or recessed nanoelectrodes. The deposition of Hg is monitored chronoamperometrically to produce near‐hemispherical electrodes, which are characterized by voltammetry and scanning electrochemical microscopy (SECM). The well‐shaped deposits of a solid metal (Pt) at Au nanoelectrodes are prepared and imaged by scanning electron microscopy (SEM). Catalytic metal clusters can also be prepared using this methodology. Electrodes with the metal surface flush with glass insulator, most suitable for quantitative voltammetric and SECM experiments are fabricated by electrodeposition of a metal inside an etched nanocavity. Electrodeposition at nanoelectrodes: Nanometer‐sized metal electrodes are prepared by electrodeposition of Hg or Pt on polished or recessed nanoelectrodes. 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Electrodes with the metal surface flush with glass insulator, most suitable for quantitative voltammetric and SECM experiments are fabricated by electrodeposition of a metal inside an etched nanocavity. Electrodeposition at nanoelectrodes: Nanometer‐sized metal electrodes are prepared by electrodeposition of Hg or Pt on polished or recessed nanoelectrodes. 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subjects	Chemistry Electrochemistry electrodeposition Electrodes: preparations and properties Exact sciences and technology General and physical chemistry nanoelectrodes scanning electrochemical microscopy voltammetry
title	Fabrication of Nanoelectrodes and Metal Clusters by Electrodeposition
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