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Experimental Studies of Electron Affinity and Work Function from Aluminium on Oxidized Diamond (100) and (111) Surfaces

Michael C. James, Mattia Cattelan, Neil A. Fox, R.F. Silva, Ricardo M. Silva, Paul May

2021physica status solidi (b)17 citationsDOIOpen Access PDF

Abstract

Three different procedures are used to deposit aluminium onto O‐terminated (100) and (111) boron‐doped diamond, with the aim of producing a thermally stable surface with low work function and negative electron affinity. The methods are 1) deposition of a > 20 nm film of Al by high‐vacuum evaporation followed by HCl acid wash to remove excess metallic Al, 2) deposition of <3 Å of Al by atomic layer deposition, and 3) thin‐film deposition of Al by electron beam evaporation. The surface structure, work function, and electron affinity are investigated after annealing at temperatures of 300, 600, and 800 °C. Except for loss of excess O upon first heating, the Al + O surfaces remain stable up to 800 °C. The electron affinity values are generally between 0.0 and −1.0 eV, and the work function is generally 4.5 ± 0.5 eV, depending upon the deposition method, coverage, and annealing temperature. The values are in broad agreement with those predicted by computer simulations of Al + O (sub)monolayers on a diamond surface.

Topics & Concepts

Work functionElectron affinity (data page)Annealing (glass)AluminiumElectron beam physical vapor depositionAnalytical Chemistry (journal)Materials scienceDiamondEvaporationMonolayerMetalSiliconDeposition (geology)Thin filmElectronChemistryNanotechnologyMetallurgyOrganic chemistryThermodynamicsMoleculeBiologyQuantum mechanicsPaleontologyPhysicsSedimentDiamond and Carbon-based Materials ResearchElectronic and Structural Properties of OxidesMetal and Thin Film Mechanics