Biomedical Engineering Reference
In-Depth Information
[565] Erts, D.; Polyakov, B.; Dalyt, B.; Morris, M. A.; Ellingboe, S.; Boland, J.; Holmes, J. D., High
density germanium nanowire assemblies: contact challenges and electrical characterization.
Journal of Physical Chemistry B
2006, 110 (2), 820-26.
[566] Kalinin, S. V.; Shin, J.; Jesse, S.; Geohegan, D.; Baddorf, A. P.; Lilach, Y.; Moskovits, M.;
Kolmakov, A., Electronic transport imaging in a multiwire SnO2 chemical field-effect
transistor device.
Journal of Applied Physics
2005, 98 (4), 044503.
[567] Xu, D. G.; Watt, G. D.; Harb, J. N.; Davis, R. C., Electrical conductivity of ferritin proteins by
conductive AFM.
Nano Letters
2005, 5 (4), 571-77.
[568] Axford, D. N.; Davis, J. J., Electron flux through apo-and holoferritin.
Nanotechnology
2007,
18 (14), 145502.
[569] Zhao, J. W.; Davis, J. J., Molecular electron transfer of protein junctions characterised by
conducting atomic force microscopy.
Colloids and Surfaces B: Biointerfaces
2005, 40 (3-4),
189-94.
[570] MacCuspie, R. I.; Nuraje, N.; Lee, S.-Y.; Runge, A.; Matsui, H., Comparison of electrical
properties of viruses studied by AC capacitance scanning probe microscopy.
Journal of the
American Chemical Society
2008, 130 (3), 887-91.
[571] Luo, E. Z.; Wilson, I. H.; Yan, X.; Xu, J. B., Probing electron conduction at the microscopic
level in percolating nanocomposites by conducting atomic-force microscopy.
Physical Re-
view B
1998, 57 (24), R15120.
[572] Olbrich, A.; Ebersberger, B.; Boit, C.; Vancea, J.; Hoffmann, H., A new AFM-based tool for
testing dielectric quality and reliability on a nanometer scale.
Microelectronics Reliability
1999, 39 (6-7), 941-46.
[573] Aliev, A. E.; Oh, J.; Kozlov, M. E.; Kuznetsov, A. A.; Fang, S.; Fonseca, A. F.; Ovalle, R.;
Lima, M. D.; Haque, M. H.; Gartstein, Y. N.; Zhang, M.; Zakhidov, A. A.; Baughman, R. H.,
Giant-stroke, superelastic carbon nanotube aerogel muscles.
Science
2009, 323 (5921),
1575-78.
[574] Zdrojek, M.; Melin, T.; Boyaval, C.; Stievenard, D.; Jouault, B.; Wozniak, M.; Huczko, A.;
Gebicki, W.; Adamowicz, L., Charging and emission effects of multiwalled carbon nanotubes
probed by electric force microscopy.
Applied Physics Letters
2005, 86 (21), 213114.
[575] Vitali, L.; Burghard, M.; Wahl, P.; Schneider, M. A.; Kern, K., Local pressure-induced
metallization of a semiconducting carbon nanotube in a crossed junction.
Physical Review
Letters
2006, 96 (8), 086804.
[576] Hansma, P. K.; Cleveland, J. P.; Radmacher, M.; Walters, D. A.; Hillner, P. E.; Bezanilla, M.;
Fritz, M.; Vie, D.; Hansma, H. G.; Prater, C. B.; Massie, J.; Fukunaga, L.; Gurley, J.; Elings,
V., Tapping mode atomic-force microscopy in liquids.
Applied Physics Letters
1994, 64 (13),
1738-40.
[577] Morris, V. J.; Kirby, A. R.; Gunning, A. P.,
Atomic Force Microscopy for Biologists
. Imperial
College Press: London, 1999.
[578] Jena, B. P.; H
¨
rber, J. K. H.,
Atomic Force Microscopy in Cell Biology
. Academic Press: San
Diego, 2002; Vol. 68.
[579] Parot, P.; Dufr
ˆ
ne, Y. F.; Hinterdorfer, P.; Grimellec, C. L.; Navajas, D.; Pellequer, J.-L.;
Scheuring, S., Past, present and future of atomic force microscopy in life sciences and
medicine.
Journal of Molecular Recognition
2007, 20 (6), 418-31.
[580] Fuss, M.; Luna, M.; Alcantara, D.; de la Fuente, J. M.; Enriquez-Navas, P. M.; Angulo, J.;
Penades, S.; Briones, F., Carbohydrate-carbohydrate interaction prominence in 3D supramo-
lecular self-assembly.
Journal of Physical Chemistry B
2008, 112 (37), 11595-600.
[581] De la Fuente, J. M.; Alcantara, D.; Eaton, P.; Crespo, P.; Rojas, T. C.; Fernandez, A.;
Hernando, A.; Penades, S., Gold and gold-iron oxide magnetic glyconanoparticles: synthesis,
characterization and magnetic properties.
Journal of Physical Chemistry B
2006, 110 (26),
13021-28.
