Biomedical Engineering Reference
In-Depth Information
[471] Deleu, M.; Nott, K.; Brasseur, R.; Jacques, P.; Thonart, P.; Dufrˆne, Y. F., Imaging mixed
lipid monolayers by dynamic atomic force microscopy.
Biochimica et Biophysica Acta -
Biomembranes
2001, 1513 (1), 55-62.
[472] Crampton, N.; Bonass, W. A.; Kirkham, J.; Thomson, N. H., Studying silane mobility on
hydrated mica using ambient AFM.
Ultramicroscopy
2006, 106 (8-9), 765-70.
[473] Garc´a, R.; Magerle, R.; Perez, R., Nanoscale compositional mapping with gentle forces.
Nature Materials
2007, 6 (6), 405-11.
[474] Tan, S.; Sherman, R. L.; Qin, D.; Ford, W. T., Surface heterogeneity of polystyrene latex
particles determined by dynamic force microscopy.
Langmuir
2005, 21 (1), 43-49.
[475] Dorobantu, L. S.; Bhattacharjee, S.; Foght, J. M.; Gray, M. R., Atomic force microscopy
measurement of heterogeneity in bacterial surface hydrophobicity.
Langmuir
2008, 24 (9),
4944-51.
[476] Ando, T.; Uchihashi, T.; Fukuma, T., High-speed atomic force microscopy for
nano-visualization of dynamic biomolecular processes.
Progress in Surface Science
2008, 83 (7-9), 337-437.
[477] Uchihashi, T.; Ando, T.; Yamashita, H., Fast phase imaging in liquids using a rapid scan
atomic force microscope.
Applied Physics Letters
2006, 89 (21), 213112.
[478] Argaman, M.; Golan, R.; Thomson, N. H.; Hansma, H. G., Phase imaging of moving DNA
molecules and DNA molecules replicated in the atomic force microscope.
Nucleic Acids
Research
1997, 25 (21), 4379-84.
[479] Kienberger, F.; Costa, L. T.; Zhu, R.; Kada, G.; Reithmayer, M.; Chtcheglova, L.; Rankl, C.;
Pacheco, A. B. F.; Thalhammer, S.; Pastushenko, V.; Heckl, W. M.; Blaas, D.; Hinterdorfer, P.,
Dynamic force microscopy imaging of plasmid DNA and viral RNA.
Biomaterials
2007, 28
(15), 2403-11.
[480] Hoo, C.; Starostin, N.; West, P.; Mecartney, M., A comparison of atomic force microscopy
(AFM) and dynamic light scattering (DLS) methods to characterize nanoparticle size distri-
butions.
Journal of Nanoparticle Research
2008, 10 (Supplement 1), 89-96.
[481] Schwarz, A.; Wiesendanger, R., Magnetic sensitive force microscopy.
Nano Today
2008, 3
(1-2), 28-39.
[482] Han, X. D.; Zhang, Z.; Wang, Z. L., Experimental nanomechanics of one-dimensional
nanomaterials by in situ microscopy.
NANO: Brief Reports and Reviews
2007, 2 (5), 249-71.
[483] Dabbousi, B. O.; Rodriguez-Viejo, J.; Mikulec, F. V.; Heine, J. R.; Mattoussi, H.; Ober, R.;
Jensen, K. F.; Bawendi, M. G., (CdSe)ZnS core-shell quantum dots: synthesis and character-
ization of a size series of highly luminescent nanocrystallites.
Journal of Physical Chemistry
B
1997, 101 (46), 9463-75.
[484] Maye, M. M.; Luo, J.; Han, L.; Zhong, C. J., Probing Ph-tuned morphological changes in core-
shell nanoparticle assembly using atomic force microscopy.
Nano Letters
2001, 1 (10), 575-
79.
[485] Eaton, P.; Doria, G.; Pereira, E.; Baptista, P. V.; Franco, R., Imaging gold nanoparticles for
DNA sequence recognition in biomedical applications.
IEEE Transactions on Nano-
bioscience
2007, 6, 282-88.
[486] Miura, A.; Tanaka, R.; Uraoka, Y.; Matsukawa, N.; Yamashita, I.; Fuyuki, T., The charac-
terization of a single discrete bionanodot for memory device applications.
Nanotechnology
2009, 20 (12), 125702.
[487] Corduneanu, O.; Diculescu, V. C.; Chiorcea-Paquim, A. M.; Oliveira-Brett, A. M., Shape-
controlled palladium nanowires and nanoparticles electrodeposited on carbon electrodes.
Journal of Electroanalytical Chemistry
2008, 624 (1-2), 97-108.
[488] Bonanni, B.; Cannistraro, S., Gold nanoparticles on modified glass surface as height calibra-
tion standard for atomic force microscopy operating in contact and tapping mode.
Journal of
Nanotechnology Online
2005, 1, 1-14.
