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

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

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 ma...

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Veröffentlicht in:Electrochimica acta 2020-11, Vol.360, p.136872, Article 136872
Hauptverfasser: van Dorp, Dennis H., Vanheusden, Genis, Paulussen, Kris, Hassan, Ibrahim, Van Wonterghem, Simon, Abrenica, Graniel H., Dara, Praveen, Meersschaut, Johan, Conard, Thierry, Holsteyns, Frank, Kelly, John J.
Format: Artikel
Sprache:eng
Schlagworte:
Anodic oxidation
Atomic properties
Electrochemistry
Etching
Fluid dynamics
Fluid flow
Fluid mechanics
GaAs
Hydrodynamics
InP
Ion concentration
Luminous intensity
Native oxide
Oxidation
Passivation
Passivity
Physical Sciences
Protons
Reaction intermediates
Science & Technology
Sulfuric acid
Surface analysis (chemical)
Surface chemistry
Surface reactions
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Zusammenfassung: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.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2020.136872