Si nanostructures fabricated by anodic oxidation with an atomic force microscope and etching with an electron cyclotron resonance source

E. S. Snow; W. H. Juan; S. W. Pang; P. M. Campbell

doi:10.1063/1.113348

Si nanostructures fabricated by anodic oxidation with an atomic force microscope and etching with an electron cyclotron resonance source

E. S. Snow, W. H. Juan, S. W. Pang, P. M. Campbell

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

74 Citations (Scopus)

Abstract

Nanometer-scale Si structures have been fabricated by anodic oxidation with an atomic force microscope (AFM) and dry etching using an electron cyclotron resonance (ECR) source. The AFM is used to anodically oxidize a thin surface layer on a H-passivated (100) Si surface. This oxide is used as a mask for etching in a Cl₂ plasma generated by the ECR source. An etch selectivity >20 was obtained by adding 20% O₂ to the Cl₂ plasma. The AFM-defined mask withstands a 70 nm deep etch, and linewidths∼10 nm have been obtained with a 30 nm etch depth.© 1995 American Institute of Physics.

Original language	English
Journal	Applied Physics Letters
DOIs	https://doi.org/10.1063/1.113348
Publication status	Published - 1995
Externally published	Yes

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title = "Si nanostructures fabricated by anodic oxidation with an atomic force microscope and etching with an electron cyclotron resonance source",

abstract = "Nanometer-scale Si structures have been fabricated by anodic oxidation with an atomic force microscope (AFM) and dry etching using an electron cyclotron resonance (ECR) source. The AFM is used to anodically oxidize a thin surface layer on a H-passivated (100) Si surface. This oxide is used as a mask for etching in a Cl2 plasma generated by the ECR source. An etch selectivity >20 was obtained by adding 20% O2 to the Cl2 plasma. The AFM-defined mask withstands a 70 nm deep etch, and linewidths∼10 nm have been obtained with a 30 nm etch depth.{\textcopyright} 1995 American Institute of Physics.",

author = "Snow, {E. S.} and Juan, {W. H.} and Pang, {S. W.} and Campbell, {P. M.}",

year = "1995",

doi = "10.1063/1.113348",

language = "English",

journal = "Applied Physics Letters",

issn = "0003-6951",

publisher = "American Institute of Physics",

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TY - JOUR

T1 - Si nanostructures fabricated by anodic oxidation with an atomic force microscope and etching with an electron cyclotron resonance source

AU - Snow, E. S.

AU - Juan, W. H.

AU - Pang, S. W.

AU - Campbell, P. M.

PY - 1995

Y1 - 1995

N2 - Nanometer-scale Si structures have been fabricated by anodic oxidation with an atomic force microscope (AFM) and dry etching using an electron cyclotron resonance (ECR) source. The AFM is used to anodically oxidize a thin surface layer on a H-passivated (100) Si surface. This oxide is used as a mask for etching in a Cl2 plasma generated by the ECR source. An etch selectivity >20 was obtained by adding 20% O2 to the Cl2 plasma. The AFM-defined mask withstands a 70 nm deep etch, and linewidths∼10 nm have been obtained with a 30 nm etch depth.© 1995 American Institute of Physics.

AB - Nanometer-scale Si structures have been fabricated by anodic oxidation with an atomic force microscope (AFM) and dry etching using an electron cyclotron resonance (ECR) source. The AFM is used to anodically oxidize a thin surface layer on a H-passivated (100) Si surface. This oxide is used as a mask for etching in a Cl2 plasma generated by the ECR source. An etch selectivity >20 was obtained by adding 20% O2 to the Cl2 plasma. The AFM-defined mask withstands a 70 nm deep etch, and linewidths∼10 nm have been obtained with a 30 nm etch depth.© 1995 American Institute of Physics.

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UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-36448998798&origin=recordpage

U2 - 10.1063/1.113348

DO - 10.1063/1.113348

M3 - RGC 21 - Publication in refereed journal

SN - 0003-6951

JO - Applied Physics Letters

JF - Applied Physics Letters

ER -

Si nanostructures fabricated by anodic oxidation with an atomic force microscope and etching with an electron cyclotron resonance source

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