Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]

Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]

Zn electrodeposition in the under- (UPD) and overpotential (OPD) ranges by means of in-situ Scanning Tunneling Microscopy (STM) was examined, supported by in-situ cyclic voltammetry and chronoamperometrie. The underpotential deposition of Zn follows a layer-by-layer growth. For the first time the fo...

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Dogel, Jana
Year of Publication:2004
Language:English
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(oapen)https://directory.doabooks.org/handle/20.500.12854/46134
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collection bib_alma
record_format marc
spelling Dogel, Jana auth
Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au
KIT Scientific Publishing 2004
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Zn electrodeposition in the under- (UPD) and overpotential (OPD) ranges by means of in-situ Scanning Tunneling Microscopy (STM) was examined, supported by in-situ cyclic voltammetry and chronoamperometrie. The underpotential deposition of Zn follows a layer-by-layer growth. For the first time the formation of three successive Zn monolayers has been observed in the UPD range. It has been shown, that the UPD of Zn is complicated due to surface alloying. The same growth mechanism extends from the UPD into OPD range until Al bulk deposition sets in. The UPD of Al at 100 mV vs. Zn/Zn(II) is marked by Moiré pattern formation. For the first time in this system the effective tunneling barrier f has been measured by STS. A first insight into the 2D phase formation of electrodeposited Zn at the electrolyte / electrode interface was obtained from STM images at various times and potentials. Before a coherent layer is formed wormlike structures are observed characteristic of spinodal decomposition. This implies a first order phase transition, which has been resolved here for the first time for 2D electrodeposition.
English
electrochemistry
spinodal decomposition
STM
zinc
layer growth
3-937300-09-0
language English
format eBook
author Dogel, Jana
spellingShingle Dogel, Jana
Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
author_facet Dogel, Jana
author_variant j d jd
author_sort Dogel, Jana
title Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
title_full Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
title_fullStr Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
title_full_unstemmed Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
title_auth Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
title_alt Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au
title_new Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
title_sort electrochemical spm study of 2d phase and 3d phase formation of zn at the ionic liquid / au(111) interface [online]
publisher KIT Scientific Publishing
publishDate 2004
isbn 3-937300-09-0
illustrated Not Illustrated
work_keys_str_mv AT dogeljana electrochemicalspmstudyof2dphaseand3dphaseformationofznattheionicliquidau111interfaceonline
AT dogeljana electrochemicalspmstudyof2dphaseand3dphaseformationofznattheionicliquidau
status_str n
ids_txt_mv (CKB)4920000000101779
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carrierType_str_mv cr
is_hierarchy_title Electrochemical SPM study of 2D phase and 3D phase formation of Zn at the ionic liquid / Au(111) interface [online]
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