Photoanodic oxidation of InP in acid solution and its surface chemistry: On the interplay of photons, protons and hydrodynamics

Publication date

2020-11-10

Authors

van Dorp, Dennis H.
Vanheusden, Genis
Paulussen, Kris
Hassan, Ibrahim
Van Wonterghem, Simon
Abrenica, Graniel H.
Dara, Praveen
Meersschaut, Johan
Conard, Thierry
Holsteyns, Frank

Editors

Advisors

Supervisors

Document Type

Article
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License

taverne

Abstract

Factors determining etching and passivation of n-type InP in H2SO4 and HCl solution and the corresponding surface chemistry are considered. Passivation is favoured by higher light intensity and lower proton and Cl− ion concentration. Ex-situ surface analysis shows the passive (bi)layer to consist mainly of oxide-based In3+ and P5+ components: InPO4 and In(PO3)3. Hydrodynamics is found to play a decisive and surprizing role in determining the kinetics of the surface reactions. Oxygen-bridge formation between surface In and P atoms, as a result of deprotonation of a P-OH reaction intermediate, is considered to be important in determining competition between the two reaction paths: etching and passivation. These results are compared with markedly contrasting results for n-type GaAs under similar experimental conditions.

Keywords

Anodic oxidation, GaAs, InP, Native oxide, Passivation, Surface chemistry, Taverne

Citation

van Dorp, D H, Vanheusden, G, Paulussen, K, Hassan, I, Van Wonterghem, S, Abrenica, G H, Dara, P, Meersschaut, J, Conard, T, Holsteyns, F & Kelly, J J 2020, 'Photoanodic oxidation of InP in acid solution and its surface chemistry: On the interplay of photons, protons and hydrodynamics', Electrochimica Acta, vol. 360, 136872. https://doi.org/10.1016/j.electacta.2020.136872