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Carrier transport mechanisms in polycrystalline semiconductors: from grain boundary physics to device performance

Israt Jahan, Jesus Dustin Arellano, Zhisheng Shi

2025Journal of Materials Chemistry C23 citationsDOIOpen Access PDF

Abstract

A unified view of grain-boundary physics, transport mechanisms, and engineering strategies that dictate carrier transport and performance in polycrystalline semiconductors.

Topics & Concepts

CrystalliteMaterials scienceGrain boundaryCondensed matter physicsEngineering physicsBoundary (topology)Context (archaeology)Transport theoryGrain sizeBoundary value problemOptoelectronicsElectron mobilityNanotechnologyMechanism (biology)Work (physics)Chemical and Physical Properties of MaterialsSemiconductor Quantum Structures and DevicesAdvanced Materials and Semiconductor Technologies
Carrier transport mechanisms in polycrystalline semiconductors: from grain boundary physics to device performance | Litcius