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Low temperature deposition of functional thin films on insulating substrates enabled by selective ion acceleration using synchronized floating potential HiPIMS

Jyotish Patidar, Oleksandr Pshyk, Kerstin Thorwarth, Lars Sommerhäuser, Sebastian Siol

2025Nature Communications16 citationsDOIOpen Access PDF

Abstract

Abstract Ionized physical vapor deposition techniques, such as high-power impulse magnetron sputtering (HiPIMS), are gaining popularity but face challenges for deposition on insulating materials, where applying negative potentials for ion acceleration is difficult. While radio frequency biasing works on insulators, it risks film damage from energetic process gas ions. Here, we present Synchronized Floating Potential HiPIMS (SFP-HiPIMS), which exploits the substrate’s transient negative floating potential during HiPIMS discharges. By timing the ion arrival with this negative potential, selective metal-ion acceleration can be achieved, improving adatom mobility while minimizing energetic Ar + bombardment. As proof-of-concept, we deposit Al 0.88 Sc 0.12 N thin films on various insulating substrates. SFP-HiPIMS improves the films’ crystallinity, texture and residual stress, and also enables epitaxial growth on c-cut sapphire at temperatures as low as 100 °C. SFP-HiPIMS provides a solution for a long-standing challenge in physical vapor deposition, which works for many different materials and integrates readily with standard deposition equipment.

Topics & Concepts

High-power impulse magnetron sputteringMaterials scienceOptoelectronicsThin filmPhysical vapor depositionIonSputter depositionCrystallinitySputteringSapphireNanotechnologyComposite materialChemistryOpticsPhysicsLaserOrganic chemistryMetal and Thin Film MechanicsDiamond and Carbon-based Materials ResearchSemiconductor materials and devices