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Scaling‐Up of Structural Superlubricity: Challenges and Opportunities

Penghua Ying, Xiang Gao, Diana Berman, Oded Hod, Michael Urbakh

2025Advanced Functional Materials18 citationsDOIOpen Access PDF

Abstract

Abstract Structural superlubricity (SSL) at layered material interfaces is an exciting and vibrant field of research, offering vast opportunities to achieve ultralow friction and wear with numerous potential technological applications. At increasing length‐scales, new physical and chemical energy dissipation pathways emerge that threaten to push the system out of the superlubric regime. Physical inhibitors of SSL are primarily associated with in‐plane elasticity, out‐of‐plane corrugation, moiré superlattices, grain boundaries, and lattice defects. Chemical mechanisms that may suppress superlubric behavior include interlayer bonding, wear, and external contaminants. In this article, these and other challenges are reviewed facing the scaling‐up of structural superlubricity, as reflected in recent experimental and theoretical studies. Further perspectives are offered on future directions for realizing and manipulating macroscale superlubricity, outlining technological opportunities that it entails.

Topics & Concepts

Materials scienceScalingNanotechnologyEngineering physicsEngineeringMathematicsGeometryMetal and Thin Film MechanicsForce Microscopy Techniques and ApplicationsBoron and Carbon Nanomaterials Research
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