Title :
An AFM/STM multi-mode nanofabrication approach allowing in situ surface modification and characterisation
Author :
Weihua Hu ; Bain, James ; Ricketts, David
Author_Institution :
Dept. of Phys., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
A report is presented on a new multi-mode nanofabrication method that uses a compliant conductive atomic force microscope (AFM) probe for both AFM and scanning tunnelling microscope (STM) operation and it is demonstrated that these modes can be switched `on-the-fly` during the measurement or fabrication of nanostructures. The authors oxidised Ti with the same conductive AFM probe in AFM and STM modes, alternately in a continuous writing step. An in-plane Ti`TiOx-Ti junction was fabricated by combining AFM and STM modes and electrically characterised by taking current images in conductive AFM mode. After measurement, additional features were written to increase the electrical isolation, thus realising in situ nanoscale modification.
Keywords :
atomic force microscopy; nanofabrication; nanostructured materials; oxidation; scanning tunnelling microscopy; surface morphology; titanium; titanium compounds; AFM modes; STM modes; Ti-TiOx-Ti; Ti-TiOx-Ti junction; atomic force microscope-scanning tunnelling microscope; conductive AFM probe; continuous writing step; current images; electrical isolation; multimode nanofabrication; nanoscale modification; on-the-fly switching; oxidised Ti; surface characterisation; surface modification;
Journal_Title :
Micro & Nano Letters, IET
DOI :
10.1049/mnl.2012.0859
