Assembling uniform oxide lines and layers by overlapping dots and lines using AFM local oxidation

Author

Notargiacomo, Andrea ; Tseng, Ampere A.

Author_Institution

Phys. Dept., Univ. Roma TRE, Rome, Italy

fYear

2009

fDate

26-30 July 2009

Firstpage

907

Lastpage

910

Abstract

Atomic force microscopy lithography has been widely used for creating oxide patterns at the nanoscale on a number of different material surfaces. In this work we investigate the formation of uniform oxide lines and layers obtained by assembling arrays of overlapped oxide dots and lines, respectively. Simulations and experiments are conducted in order to assess the uniformity and consistency of the oxide structures produced, which are fundamental parameters for applications: in fact patterned oxides can act both as critical elements in nanoscale devices and as robust masks for etching processes. The superposition principle is applied to simulate the experimental data in order to identify the critical control parameters that allow for the formation of uniform oxide patterns: lines and rectangular layers.

Keywords

atomic force microscopy; etching; nanostructured materials; nanotechnology; oxidation; silicon compounds; AFM local oxidation; SiO; assembling arrays; critical control parameters; etching processes; nanoscale devices; overlapped oxide dots; oxide structures; rectangular layers; superposition principle; uniform oxide layers; uniform oxide lines; uniform oxide patterns; Assembly; Atomic force microscopy; Atomic layer deposition; Conducting materials; Etching; Nanoscale devices; Oxidation; Probes; Silicon; Voltage; Atomic force microscopy; local anodic oxidation; oxide line; oxide mask; silicon; uniformity;

fLanguage

English

Publisher

ieee

Conference_Titel

Nanotechnology, 2009. IEEE-NANO 2009. 9th IEEE Conference on

Conference_Location

Genoa

ISSN

1944-9399

Print_ISBN

978-1-4244-4832-6

Electronic_ISBN

1944-9399

Type

conf

Filename

5394609