Title :
Platinum/erbium disilicide nanowire arrays on Si(001)
Author :
Ragan, Regina ; Kim, Sehun ; Ohlberg, D.A.A. ; Williams, R.Stanley
Author_Institution :
Quantum Sci. Res., Hewlett-Packard Labs., Palo Alto, CA, USA
Abstract :
Self-assembled ErSi2-x nanowires were grown on Si(001) substrates with average nanowire width of 2.8 nm. Submonolayer coverage of platinum was deposited postgrowth. Scanning tunneling microscopy showed that platinum preferentially deposited on the nanowire surface versus the Si surface. Reactive ion etching of ErSi2-x nanowires with and without platinum on the surface demonstrated that platinum acted as a more resistant etch mask. Etching platinum coated nanowires with lower platinum coverage produced linear arrays of quantum dots with a diameter of approximately the pre-etched nanowire width. The platinum layer was shown to passivate the highly reactive rare earth disilicide surface.
Keywords :
erbium compounds; monolayers; nanowires; passivation; platinum; quantum dots; scanning tunnelling microscopy; self-assembly; semiconductor-metal boundaries; sputter etching; surface structure; 2.8 nm; Pt-ErSi2; Si; Si(001) substrates; etching mask; nanowire surface; passivation; platinum-erbium disilicide nanowire arrays; quantum dots; rare earth disilicide surface; reactive ion etching; scanning tunneling microscopy; self-assembled ErSi2-x nanowires; submonolayer; Erbium; Etching; Image reconstruction; Nanostructures; Platinum; Quantum dots; Scanning electron microscopy; Self-assembly; Substrates; Surface reconstruction;
Conference_Titel :
Nanotechnology, 2004. 4th IEEE Conference on
Print_ISBN :
0-7803-8536-5
DOI :
10.1109/NANO.2004.1392289
