Type

Journal Article

Authors

D. Noel Buckley
Shohei Nakahara
Colm O'Dwyer
Nathan Quill
Robert P. Lynch

Subjects

Chemistry

Topics
n inp surface anodic etching propagation kinetics iii v semiconductors electrolyte concentration nanopores

Propagation of nanopores during anodic etching of n-InP in KOH. (2013)

Abstract We propose a three-step model of electrochemical nanopore formation in n-InP in KOH that explains how crystallographically oriented etching can occur even though the rate-determining process (hole generation) occurs only at pore tips. The model shows that competition in kinetics between hole diffusion and electrochemical reaction determines the average diffusion distance of holes along the semiconductor surface and this, in turn, determines whether etching is crystallographic. If the kinetics of reaction are slow relative to diffusion, etching can occur at preferred crystallographic sites within a zone in the vicinity of the pore tip, leading to pore propagation in preferential directions. Symmetrical etching of three {111}A faces forming the pore tip causes it to propagate in the (remaining) 〈111〉A direction. As a pore etches, propagating atomic ledges can meet to form sites that can become new pore tips and this enables branching of pores along any of the 〈111〉A directions. The model explains the observed uniform width of pores and its variation with temperature, carrier concentration and electrolyte concentration. It also explains pore wall thickness, and deviations of pore propagation from the 〈111〉A directions. We believe that the model is generally applicable to electrochemical pore formation in III-V semiconductors.
Collections Ireland -> University of Limerick -> PubMed

Full list of authors on original publication

D. Noel Buckley, Shohei Nakahara, Colm O'Dwyer, Nathan Quill, Robert P. Lynch

Experts in our system

1
D. Noel Buckley
University College Cork
Total Publications: 27
 
2
Colm O'Dwyer
University College Cork
Total Publications: 121
 
3
Nathan Quill
University of Limerick
Total Publications: 9
 
4
Robert P. Lynch
University of Limerick
Total Publications: 11