Platinum ditelluride (PtTe2) is an emerging topological semimetal with intriguing optoelectronic properties. Scalable and controllable growth techniques are fundamental for its technological exploitation. Here, we synthesize large-area PtTe2 films by tellurization of pre-deposited platinum layers. By selectively modifying the tellurization parameters, we demonstrate the possibility of controlling the layer orientation of tellurized films and of introducing microscopic corrugation in the PtTe2 film. The first result is obtained by increasing the thermal budget of the process, which changes PtTe2 preferential crystalline orientation from (001) to (1−13)/(103) growth directions. The latter result is achieved by modifying the heating rate of the process at a fixed growth temperature equal to 550 °C. From the Raman analysis of a wrinkled sample, we find the coexistence of tensile and compressive strains depending on the corrugation site. The demonstrated control over grain orientation and microscopic corrugation provides a powerful strategy to tailor the structural and strain landscape of topological semimetals, providing a robust platform for strain engineering.

Thermally Engineered CVD for Controlling Crystal Orientation and Strain in Large-Area PtTe2 Layers

Cataldo, Alessandro;Forzinetti, Alessandro;Pasagadugula, Koushik;Casari, Carlo S.;Lamperti, Alessio
2026-01-01

Abstract

Platinum ditelluride (PtTe2) is an emerging topological semimetal with intriguing optoelectronic properties. Scalable and controllable growth techniques are fundamental for its technological exploitation. Here, we synthesize large-area PtTe2 films by tellurization of pre-deposited platinum layers. By selectively modifying the tellurization parameters, we demonstrate the possibility of controlling the layer orientation of tellurized films and of introducing microscopic corrugation in the PtTe2 film. The first result is obtained by increasing the thermal budget of the process, which changes PtTe2 preferential crystalline orientation from (001) to (1−13)/(103) growth directions. The latter result is achieved by modifying the heating rate of the process at a fixed growth temperature equal to 550 °C. From the Raman analysis of a wrinkled sample, we find the coexistence of tensile and compressive strains depending on the corrugation site. The demonstrated control over grain orientation and microscopic corrugation provides a powerful strategy to tailor the structural and strain landscape of topological semimetals, providing a robust platform for strain engineering.
2026
PtTe2
Tellurization
Grain orientation
Wrinkling
Strain
X-ray diffraction
Raman spectroscopy
Chemical vapor deposition
Transition metal dichalcogenides
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1319107
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