Depth chemical profile in a CeIr3 sample

Description

The polycrystalline sample of CeIr₃ used in the present studies was synthesized by arc-melting cerium (4N) and iridium (3N5) in an arc furnace on a water-cooled copper hearth using a tungsten electrode under a high purity argon atmosphere. A piece of zirconium was used as an oxygen getter. First, a button of Ir was prepared by arc-melting the iridium powder pellet alone. The Ir ingot was then melted with Ce pieces with 3% excess to compensate expected loss of Ce. After the initial melt, the sample button was turned and re-melted several times (4-5) to improve homogeneity. Mass loss during the synthesis was lower than 1%, and the sample button formed was uniform, hard and silvery grey in color. The obtained sample was then wrapped in tantalum foil and annealed at 1370˚C for 12 hours under high vacuum (10^-5 torr). Subsequently, the resulting material was ground well, pressed into a pellet using a hydraulic press and then heated under high vacuum to 1400˚C and held at this temperature for 36 hours.

To determine the valence state of cerium, X-ray photoelectron spectroscopy (XPS) was performed. The XPS measurement was performed using an Argus (Omicron NanoTechnology) X-ray photoelectron spectrometer. The photoelectrons were excited by a Mg-Ka X-ray source. The X-ray anode was operated at 15 keV and 300 W. The XPS measurement was performed at room temperature under ultra-high vacuum conditions, with pressures below 1.1 x10^-8 mBar. It is known that the cerium at the surface tends to exist as Ce³⁺ rather than Ce⁴⁺.³ To avoid this surface impact, the CeIr₃sample was sputter-cleaned (three times) by Ar ions, (FDG 150 ion source mounted in the analytic chamber), before the XPS measurement.

Dataset file

CeIr3.zip

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CC BY

Attribution
Raw data:: Data contained in dataset was not processed.
Software:: origin, Casa XPS

Details

Year of publication:

2021

Verification date:

2021-07-05

Creation date:

2018

Dataset language:

English

Fields of science:

materials engineering (Engineering and Technology)

DOI:

10.34808/q85g-vv44

Verified by:

Gdańsk University of Technology

Keywords

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Authors

Marcin Stanisław Łapiński dr hab. inż.
Institute of Nanotechnology and Materials Engineering
orcid number 0000-0002-3283-2886open in new tab
Creator

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