Pt(100) - 0.1 M H2SO4
echemdb identifier: kibler_2000_in-situ_73_f5a_black
tags:
BCV
A cyclic voltammogramm for Pt(100) recorded in 0.1 M H2SO4 at a scan rate of 50.0 \(\mathrm{mV\,s^{-1}}\) from Figure 5a in L. A. Kibler et al. In-Situ STM Characterisation of the Surface Morphology of Platinum Single Crystal Electrodes as a Function of Their Preparation. J. Electroanal. Chem., 484(1):73–82, 2000. URL: http://www.sciencedirect.com/science/article/pii/S0022072800000656 (visited on 2019-03-02), doi:10.1016/S0022-0728(00)00065-6.
Further information
The figure shows digitized data.
The Pt(100) electrode was prepared by:
Metadata
Details on the electrochemical system (yaml)
electrodes:
- function: reference electrode
name: REF
type: SCE
- function: counter electrode
material: Pt
name: CE
- crystallographic orientation: '100'
function: working electrode
material: Pt
name: WE
preparation procedure:
description:
- Annealed in hydrogen or bunsen burner flame.
- Cooled down in H2 + N2 for 1 min.
shape:
diameter:
unit: mm
value: 4
type: cylinder
source:
manufacturer: MaTecK
electrolyte:
comment: The electrolyte was at room temperature.
components:
- name: H2O
proportion:
unit: volume percent
value: 100
purity:
total ion conductivity:
unit: MOhm cm
value: 18.2
total organic carbon:
unit: ppb
value: 3
source:
quality: ultrapure water
refinement: Milli-Q
type: solvent
- concentration:
unit: mol L-1
value: 0.1
name: H2SO4
source:
purity:
grade: suprapur
supplier: Merck
type: acid
ph:
comment: "Estimated with CurTiPot on extraction from publication using a temperature\
\ of 25\xB0C."
value: 1.041
temperature:
unit: deg_C
value: 20
type: aqueous
type: electrochemical
Citation key (bibtex)
@article{kibler_2000_in-situ_73,
author = "Kibler, L. A and Cuesta, A and Kleinert, M and Kolb, D. M",
title = "In-Situ {{ STM }} Characterisation of the Surface Morphology of Platinum Single Crystal Electrodes as a Function of Their Preparation",
date = "2000-04-07",
year = "2000",
journal = "J. Electroanal. Chem.",
volume = "484",
number = "1",
pages = "73--82",
issn = "1572-6657",
doi = "10.1016/S0022-0728(00)00065-6",
url = "http://www.sciencedirect.com/science/article/pii/S0022072800000656",
urldate = "2019-03-02",
abstract = "A systematic study of the surface morphology of Pt(111) and Pt(100) electrodes as prepared by flame-annealing and cooling in different atmospheres (air, N2, H2+N2 and CO+N2) is presented. The electrodes were characterised by cyclic voltammetry and in-situ STM in 0.1 M H2SO4. Preliminary voltammetric results for Pt(110) are also shown. In this case, Cu upd served as a structure sensitive probe. It was observed that the presence of oxygen during cooling induces surface defects and leads to rough surfaces. Cooling in pure N2 preserves the reconstructed Pt(100) and Pt(110) surfaces, while cooling in H2+N2 or CO+N2 lifts the reconstruction. The use of CO as the cooling gas turned out to be advantageous for the preparation of clean and well-ordered (1×1)-surfaces. The stability of reconstructed Pt surfaces in an electrochemical environment is discussed. For H2+N2-cooled Pt electrodes, a clear influence of the H2-concentration on the surface morphology was observed.",
keywords = "Platinum single crystal electrodes,STM,Surface morphology"
}
Details about the original figure in the publicaton (yaml).
comment: ''
fields:
- name: E
orientation: x
reference: SCE
type: number
unit: V
- name: j
orientation: y
type: number
unit: "\xB5A cm\u207B\xB2"
measurement type: CV
scan rate:
unit: mV / s
value: 50.0
simultaneous measurements: []
type: digitized
version: 1
Details about the curation process of this entry (yaml).
process:
- date: '2023-02-04'
name: Johannes M. Hermann
orcid: https://orcid.org/0000-0001-7119-1295
role: curator