Comparative study of electrical properties of chalcogenide films produced by reaction of Cu, Ag, Ni and NiCu with Sb2S3 in hot wall epitaxy

Comparative study of electrical properties of chalcogenide films produced by reaction of Cu, Ag, Ni and NiCu with Sb2S3 in hot wall epitaxy

Films of transition-metal–chalcogen alloys are produced using hot wall epitaxy by means of sulphurization in the exposure of Cu, Ag, Ni and NiCu films to Sb2S3 vapor. The properties of the resultant chalcogenide films change widely depending on the material combination and the synthesis conditions....

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 931; p. 167565
Main Authors: Takagaki, Y., Hanke, M., Ramsteiner, M., Lähnemann, J.
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 10-01-2023
Elsevier BV
Subjects:
Antimony
Chalcogenides
Chemical synthesis
Comparative studies
Copper
Electric contacts
Electrical properties
Electrical resistivity
Electrical transport
Electrodes
Epitaxy
Material substitution
Nickel
Photoelectric effect
Phototransient
Raman spectra
Silver
Sulfurization
Sulphide
Ternary alloys
Transition metal
Transition metal alloys
Transition metals
Phototransient
Sulphide
Antimony
Transition metal
Material substitution
Electrical transport
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Summary:Films of transition-metal–chalcogen alloys are produced using hot wall epitaxy by means of sulphurization in the exposure of Cu, Ag, Ni and NiCu films to Sb2S3 vapor. The properties of the resultant chalcogenide films change widely depending on the material combination and the synthesis conditions. We investigate the influences of the coexistence of Sb in the alloys on the electrical properties of the films. The Ni-containing films are highly conductive, whereas the resistivity of the films produced from Cu and Ag is large. The sulphurization occurs two-dimensionally as homogeneous films consisting of Cu-Sb-S and Ag-Sb-S ternary alloys, giving rise to weak and negligible dependencies of the resistivity on the synthesis temperature in the respective cases. The thermal activation energy for the electrical transport varies in correspondence to the resistivity values. The Cu- and Ag-based films exhibit a suppression of current when Ag electrodes are used in comparison to using Au electrodes. The transient of photocurrent is shown for these films to be remarkably slow with an order of magnitude change of the current. The spontaneous reaction with Al contacts to trigger interfacial resistance switching is weak for the Sb-containing materials. The structural properties of the films are furthermore presented together with the Raman spectra to identify the synthesized alloys. A catalytic effect of Ni in the sulphurization of Cu and the surfactant effect of Sb are thereby revealed. •Films produced by sulphurizing Cu and Ag using Sb2S3 are electrically resistive due to the generation of ternary alloys.•The variation of the resistivity of the alloy films is associated with the thermal activation energy.•Inclusion of Sb in the chalcogenide alloys weakens the spontaneous redox reactions for the interfacial resistance switching.•The ternary transition-metal–chalcogenides exhibit remarkably slow phototransients.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2022.167565