Biomedical Engineering Reference
In-Depth Information
[416] Macdonald, W.; Campbell, P.; Fisher, J.; Wennerberg, A., Variation in surface texture
measurements.
Journal of Biomedical Materials Research B, Applied Biomaterials
2004,
70B (2), 262-69.
[417] Hues, S. M.; Draper, C. F.; Colton, R. J. Measurement of nanomechanical properties of metals
using the atomic force microscope,
Journal of Vacuum Science and Technology B
1994, 13
(3), 2211-14.
[418] Bhushan, B.; Koinkar, V. N. Microtribological studies of doped single-crystal silicon
and polysilicon films for MEMS devices,
Sensors and Actuators A: Physical
, 1996, 57(2),
91-102.
[419] Withers, J. R.; Aston, D. E., Nanomechanical measurements with AFM in the elastic limit.
Advances in Colloid and Interface Science
2006, 120 (1-3), 57-67.
[420] Wen, J., Some mechanical properties of typical polymer-based composites. In
Physical
Properties of Polymers Handbook
, Mark, J. E., Ed. Springer: 2007; pp 487-97.
[421] Bullock, S.; Johnston, E. E.; Willson, T.; Gatenholm, P.; Wynne, K. J., Surface science of a
filled polydimethylsiloxane-based alkoxysilane-cured elastomer: RTV11.
Journal of Colloid
and Interface Science
1999, 210 (1), 18-36.
[422] Raghavan, D.; Gu, X.; Nguyen, T.; VanLandingham, M.; Karim, A., Mapping polymer
hetereogeneity using AFM phase imaging and nanoscale indentation.
Macromolecules
2000, 69, 2573-83.
[423] Achalla, P.; McCormick, J.; Hodge, T.; Moreland, C.; Esnault, P.; Karim, A.; Raghavan, D.,
Characterization of elastomeric blends by atomic force microscopy.
Journal of Polymer
Science Part B - Polymer Physics
2006, 44 (3), 492-503.
[424] Sugimoto, Y.; Namikawa, T.; Abe, M.; Morita, S., Mapping and imaging for rapid atom
discrimination: a study of frequency modulation atomic force microscopy.
Applied Physics
Letters
2009, 94 (2), 023108.
[425] Giessibl, F. J., Advances in atomic force microscopy.
Reviews of Modern Physics
2003, 75
(3), 949-83.
[426] Kuwahara, Y., Comparison of the surface structure of the tetrahedral sheets of muscovite and
phlogopite by AFM.
Physics and Chemistry of Minerals
2001, 28 (1), 1-8.
[427] Jaschke, M.; Schonherr, H.; Wolf, H.; Butt, H.-J.; Bamberg, E.; Besocke, M. K.; Ringsdorf,
H., Structure of alkyl and perfluoroalkyl disulfide and azobenzenethiol monolayers on gold
(111) Revealed by atomic force microscopy.
Journal of Physical Chemistry
1996, 100 (6),
2290-2301.
[428] Hembacher, S.; Giessibl, F. J.; Mannhart, J.; Quate, C. F., Revealing the hidden atom in
graphite by low-temperature atomic force microscopy.
Proceedings of the National Academy
of Sciences of the United States of America
2003, 100 (22), 12539-42.
[429] Ohnesorge, F.; Binnig, G., True atomic-resolution by atomic force microscopy through
repulsive and attractive forces.
Science
1993, 260 (5113), 1451-56.
[430] Fukuma, T., Wideband low-noise optical beam deflection sensor with photothermal excitation
for liquid-environment atomic force microscopy.
Review of Scientific Instruments
2009, 80
(2), 023707-8.
[431] Enevoldsen, G. H.; Pinto, H. P.; Foster, A. S.; Jensen, M. C. R.; Kuhnle, A.; Reichling, M.;
Hofer, W. A.; Lauritsen, J. V.; Besenbacher, F., Detailed scanning probe microscopy tip
models determined from simultaneous atom-resolved AFM and STM studies of the TiO
2
(110)
surface.
Physical Review B
2008, 78 (4), 045416.
[432] Enevoldsen, G. H.; Foster, A. S.; Christensen, M. C.; Lauritsen, J. V.; Besenbacher, F.,
Noncontact atomic force microscopy studies of vacancies and hydroxyls of TiO
2
(110):
experiments and atomistic simulations.
Physical Review B
2007, 76 (20), 205415.
[433] Maier, S.; Pfeiffer, O.; Glatzel, T.; Meyer, E.; Filleter, T.; Bennewitz, R., Asymmetry in the
reciprocal epitaxy of NaCl and KBr.
Physical Review B
2007, 75, 195408.
