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Substrate Doping and Defect Influence on P-Rich InP(001):H Surface Properties

Rachele Sciotto, Isaac Azahel Ruiz Alvarado, W. G. Schmidt

2024Surfaces23 citationsDOIOpen Access PDF

Abstract

Density-functional theory calculations on P-rich InP(001):H surfaces are presented. Depending on temperature, pressure and substrate doping, hydrogen desorption or adsorption will occur and influence the surface electronic properties. For p-doped samples, the charge transition levels of the P dangling bond defects resulting from H desorption will lead to Fermi level pinning in the lower half of the band gap. This explains recent experimental data. For n-doped substrates, H-deficient surfaces are the ground-state structure. This will lead to Fermi level pinning below the bulk conduction band minimum. Surface defects resulting from the adsorption of additional hydrogen can be expected as well, but affect the surface electronic properties less than H desorption.

Topics & Concepts

Dangling bondDopingDesorptionMaterials scienceFermi levelCondensed matter physicsSubstrate (aquarium)AdsorptionHydrogenDensity functional theoryBand gapAnalytical Chemistry (journal)Chemical physicsChemistryPhysical chemistryComputational chemistryOptoelectronicsSiliconPhysicsOrganic chemistryGeologyElectronChromatographyQuantum mechanicsOceanographySemiconductor materials and devicesSemiconductor Quantum Structures and DevicesZnO doping and properties
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