Biomedical Engineering Reference
In-Depth Information
[267] King, W. P.; Kenny, T. W.; Goodson, K. E.; Cross, G.; Despont, M.; Durig, U.; Rothuizen, H.;
Binnig, G. K.; Vettiger, P., Atomic force microscope cantilevers for combined thermomecha-
nical data writing and reading.
Applied Physics Letters
2001, 78 (9), 1300-2.
[268] Durig, U.; Cross, G.; Despont, M.; Drechsler, U.; Haberle, W.; Lutwyche, M. I.; Rothuizen,
H.; Stutz, R.; Widmer, R.; Vettiger, P.; Binnig, G. K.; King, W. P.; Goodson, K. E.,
'Millipede' - an AFM data storage system at the frontier of nanotribology.
Tribology Letters
2000, 9 (1-2), 25-32.
[269] Pozidis, H.; Haberle, W.; Wiesmann, D.; Drechsler, U.; Despont, M.; Albrecht, T. R.;
Eleftheriou, E., Demonstration of thermomechanical recording at 641 Gbit/in
2
.
IEEE Trans-
actions on Magnetics
2004, 40 (4), 2531-36.
[270] Junno, T.; Deppert, K.; Montelius, L.; Samuelson, L., Controlled manipulation of nanoparti-
cles with an atomic-force microscope.
Applied Physics Letters
1995, 66 (26), 3627-29.
[271] Hu, J.; Zhang, Y.; Gao, H. B.; Li, M. Q.; Hartmann, U., Artificial DNA patterns by
mechanical nanomanipulation.
Nano Letters
2002, 2 (1), 55-57.
[272] Ternes, M.; Lutz, C. P.; Hirjibehedin, C. F.; Giessibl, F. J.; Heinrich, A. J., The force needed to
move an atom on a surface.
Science
2008, 319 (5866), 1066-69.
[273] Sugimoto, Y.; Abe, M.; Hirayama, S.; Oyabu, N.; Custance, O.; Morita, S., Atom inlays
performed at room temperature using atomic force microscopy.
Nature Materials
2005, 4 (2),
156-59.
[274] Liu, M.; Amro, N. A.; Liu, G. Y., Nanografting for surface physical chemistry.
Annual Review
of Physical Chemistry
2008, 59, 367-86.
[275] Liang, J.; Scoles, G., Nanografting of alkanethiols by tapping mode atomic force microscopy.
Langmuir
2007, 23 (11), 6142-47.
[276] Wadu-Mesthrige, K.; Xu, S.; Amro, N. A.; Liu, G. Y., Fabrication and imaging of nanometer-
sized protein patterns.
Langmuir
1999, 15 (25), 8580-83.
[277] Xu, S.; Liu, G. Y., Nanometer-scale fabrication by simultaneous nanoshaving and molecular
self-assembly.
Langmuir
1997, 13 (2), 127-29.
[278] Paik, P.; Kar, K. K.; Deva, D.; Sharma, A., Measurement of mechanical properties of polymer
nanospheres by atomic force microscopy: effects of particle size.
Micro & Nano Letters
2007,
2 (3), 72-77.
[279] Abdelhady, H. G.; Allen, S.; Ebbens, S. J.; Madden, C.; Patel, N.; Roberts, C. J.; Zhang, J. X.,
Towards nanoscale metrology for biomolecular imaging by atomic force microscopy.
Nano-
technology
2005, 16 (6), 966-73.
[280] De la Fuente, J. M.; Eaton, P.; Barrientos, A. G.; Menendez, M.; Penades, S., Thermodynamic
evidence for Ca
2
รพ
-mediated self-aggregation of Lewis X gold glyconanoparticles. A model
for cell adhesion via carbohydrate-carbohydrate interaction.
Journal of the American Chem-
ical Society
2005, 127 (17), 6192-97.
[281] Wang, H.; Tessmer, I.; Croteau, D. L.; Erie, D. A.; Van Houten, B., Functional characteriza-
tion and atomic force microscopy of a DNA repair protein conjugated to a quantum dot.
Nano
Letters
2008, 8 (6), 1631-37.
[282] Quintana, M.; Haro-Poniatowski, E.; Morales, J.; Batina, N., Synthesis of selenium
nanoparticles by pulsed laser ablation.
Applied Surface Science
2002, 195 (1-4),
175-86.
[283] Pimpha, N.; Rattanonchai, U.; Surassmo, S.; Opanasopit, P.; Rattanarungchai, C.; Suninta-
boon, P., Preparation of PMMA/acid-modified chitosan core-shell nanoparticles and their
potential as gene carriers.
Colloid and Polymer Science
2008, 286 (8-9), 907-16.
[284] Garcia, P.; Eaton, P.; Geurts, H. P. M.; Sousa, M.; Gameiro, P.; Feiters, M. C.; Nolte, R. J. M.;
Pereira, E.; de Castro, B., AFM and electron microscopy study of the unusual aggregation
behavior of metallosurfactants based on iron(II) complexes with bipyridine ligands.
Langmuir
2007, 23 (15), 7951-57.
