K. Kragler et al.,Scanning tunneling microscopy based lithography employing amorphous hydrogenated carbon as a high resolution resist mask, Appl. Phys. Lett. 67 (8), Aug. 21, 1995. |
K. Kragler et al.,Low-voltage electron-beam lithography with scanning tunneling microscopy in air: A new method for producing structures with high aspect ratios, J. Vac. Sci. Technol. B 14(2), Mar./Apr. 1996. |
G. A. Porkolab et al., Etch masks of semimetallic amorphous carbon thin films produced by electron-beam sublimation of graphitic carbon, J. Vac. Sci. Technol. B 10(6), Nov./Dec. 1992. |
Jayshree Seth et al., Lithographic application of diamond-like carbon films, Thin Solid Films 254 (1995) 92 95. |
Christian Schönenberger et al., Nanolithography on hydrogen-terminated silicon by scanning-probe microscopy, Microelectronic Engineering 32 (1996) 203-217. |
G. Danev et al., An AS2S3/C bilayer resist system for submicron lithography, Vacuum/vol. 44/Nos. 11/12/pp. 1123 to 1126/1993. Printed in Great Britain. |
J. A. Dagata et al., Modification of hydrogen-passivated silicon by a scanning tunneling microscope operating in air, Appl. Phys. Lett. 56 (20), May 14, 1990. |
F. Perez-Murano et al., Nanometer-scale oxidation of Si(100) surfaces by tapping mode atomic force microscopy, J. Appl. Phys. 78 (11), Dec. 1, 1995. |
Dawen Wang et al., Nanofabrication of thin chromium film deposited on Si(100) surface by tip induced anodization in atomic force microscopy, Appl. Phys. Lett 67 (9), Aug. 28, 1995. |
H. W. Schumacher et al., Modification of thin gold films with a scanning force microscope, Thin Solid Films 264 (1995) 268-272. |
Takeo Hattori et al., Fabrication of nanometer-scale structures using atomic force microscope with conducting probe, J. Vac. Sci. Technol. A 12(4), Jul./Aug. 1994. |