Biomedical Engineering Reference
In-Depth Information
[247] Quate, C. F., Manipulation and modification of nanometer scale objects with the STM.
Highlights in Condensed Matter Physics and Future Prospects
1991, 285, 573-630.
[248] Day, H. C.; Allee, D. R., Selective area oxidation of silicon with a scanning force microscope.
Applied Physics Letters
1993, 62 (21), 2691-93.
[249] Xie, X. N.; Chung, H. J.; Sow, C. H.; Wee, A. T. S., Nanoscale materials patterning and
engineering by atomic force microscopy nanolithography.
Materials Science & Engineering
R-Reports
2006, 54 (1-2), 1-48.
[250] Mart
´
nez, R. V.; Losilla, N. S.; Martinez, J.; Huttel, Y.; Garc
´
a, R., Patterning polymeric
structures with 2 nm resolution at 3 nm half pitch in ambient conditions.
Nano Letters
2007, 7
(7), 1846-50.
[251] Snow, E. S.; Campbell, P. M.; Perkins, F. K., Nanofabrication with proximal probes.
Pro-
ceedings of the IEEE
1997, 85 (4), 601-11.
[252] Snow, E. S.; Campbell, P. M.; Perkins, F. K., High speed patterning of a metal silicide using
scanned probe lithography.
Applied Physics Letters
1999, 75 (10), 1476-78.
[253] Fontaine, P. A.; Dubois, E.; Stievenard, D., Characterization of scanning tunneling micro-
scopy and atomic force microscopy-based techniques for nanolithography on hydrogen-
passivated silicon.
Journal of Applied Physics
1998, 84 (4), 1776-81.
[254] Tello, M.; Garc´a, R., Nano-oxidation of silicon surfaces: comparison of noncontact
and contact atomic-force microscopy methods.
Applied Physics Letters
2001, 79 (3),
424-26.
[255] Cavallini, M.; Mei, P.; Biscarini, F.; Garc´a, R., Parallel writing by local oxidation
nanolithography with submicrometer resolution.
Applied Physics Letters
2003, 83 (25),
5286-88.
[256] Mart´nez, R. V.; Losilla, N. S.; Martinez, J.; Tello, M.; Garc´a, R., Sequential and parallel
patterning by local chemical nanolithography.
Nanotechnology
2007, 18 (8), 084021.
[257] Minne, S. C.; Adams, J. D.; Yaralioglu, G.; Manalis, S. R.; Atalar, A.; Quate, C. F.,
Centimeter scale atomic force microscope imaging and lithography.
Applied Physics Letters
1998, 73 (12), 1742-44.
[258] Held, R.; Vancura, T.; Heinzel, T.; Ensslin, K.; Holland, M.; Wegscheider, W., In-plane gates
and nanostructures fabricated by direct oxidation of semiconductor heterostructures with an
atomic force microscope.
Applied Physics Letters
1998, 73 (2), 262-64.
[259] Held, R.; Heinzel, T.; Studerus, P.; Ensslin, K.; Holland, M., Semiconductor quantum point
contact fabricated by lithography with an atomic force microscope.
Applied Physics Letters
1997, 71 (18), 2689-91.
[260] Piner, R. D.; Zhu, J.; Xu, F.; Hong, S. H.; Mirkin, C. A., 'Dip-pen' nanolithography.
Science
1999, 283 (5402), 661-63.
[261] Weeks, B. L.; Noy, A.; Miller, A. E.; De Yoreo, J. J., Effect of dissolution kinetics on feature
size in dip-pen nanolithography.
Physical Review Letters
2002, 88 (25), 255505.
[262] Christman, K. L.; Enriquez-Rios, V. D.; Maynard, H. D., Nanopatterning proteins and
peptides.
Soft Matter
2006, 2 (11), 928-39.
[263] Noy, A.; Miller, A. E.; Klare, J. E.; Weeks, B. L.; Woods, B. W.; DeYoreo, J. J., Fabrication of
luminescent nanostructures and polymer nanowires using dip-pen nanolithography.
Nano
Letters
2002, 2 (2), 109-12.
[264] Agarwal, G.; Sowards, L. A.; Naik, R. R.; Stone, M. O., Dip-pen nanolithography in tapping
mode.
Journal of the American Chemical Society
2003, 125 (2), 580-83.
[265] Fu, L.; Liu, X.; Zhang, Y.; Dravid, V. P.; Mirkin, C. A., Nanopatterning of 'hard' magnetic
nanostructures via dip-pen nanolithography and a sol-based ink.
Nano Letters
2003, 3 (6),
757-60.
[266] Tseng, A. A.; Notargiacomo, A.; Chen, T. P., Nanofabrication by scanning probe microscope
lithography: a review.
Journal of Vacuum Science & Technology B
2005, 23 (3), 877-94.
