Formation of single-phase crystalline and amorphous high-entropy ZrTiTaMoWNi thin films under near-equilibrium condensation conditions

Kornyushchenko A.; Perekrestov V.; Tomut M.; Rösner H.; Peterlechner M.; Wilde G.

Zusammenfassung

Using magnetron sputtering of a segmented target in high-purity argon, this study investigates how the formation mechanisms of Zr–Ti–Ta–Mo–W–Ni high-entropy thin films depend on process parameters such as sputtering power Pw, substrate temperature Tc, and Ni concentration. At Ni concentrations of 8–15 at% and low vapor supersaturation levels (Pw=15 W, Tc=280–500 °C), structurally stable and chemically uniform high-entropy amorphous coatings are formed. Transmission electron microscopy (TEM) investigations have shown that the crystallization of the amorphous coatings occurs in the form of a single bcc phase at an annealing temperature of 800°C. Furthermore, it has been shown that at Tc = 440°C, Pw = 15 W, and reduced Ni content (∼3 at%), the bcc crystals preferentially nucleate and grow as nano-patterns aligned parallel to the (310) plane. Additionally, amorphous coatings demonstrate increased resistance to 4.8 MeV/u Au ion irradiation at a fluence of 5 × 10 ¹ ³ ions/cm², indicating their suitability as radiation-resistant protective layers.