When Flexoelectricity Drives Triboelectricity
Christopher A. Mizzi, Laurence D. Marks
Abstract
Triboelectricity has been known since antiquity, but the fundamental science underlying this phenomenon lacks consensus. We present a flexoelectric model for triboelectricity where contact deformation induced band bending at the nanoscale is the driving force for charge transfer. This framework is combined with first-principles and finite element calculations to explore charge transfer implications for different contact geometry and materials combinations. We demonstrate that our ab initio based formulation is compatible with existing empirical models and experimental observations including charge transfer between similar materials and size/pressure dependencies associated with triboelectricity.
Topics & Concepts
Triboelectric effectFlexoelectricityCharge (physics)Contact electrificationAb initioBendingFinite element methodMaterials sciencePhysicsNanotechnologyCondensed matter physicsQuantum mechanicsThermodynamicsLiquid crystalForce Microscopy Techniques and ApplicationsMechanical stress and fatigue analysisElectrical Contact Performance and Analysis