Biomedical Engineering Reference
In-Depth Information
[12] Gerber, R., “Theory of Particle Capture in Axial Filters for High Gradient Magnetic Sepa-
ration,”
J. Phys. D: Appl. Phys
., Vol. 11, 1978, pp. 2119-2129.
[13] Pham,P., P. Massé, and J. Berthier, “Numerical Modeling of Superparamagnetic Sub-
Micronic Particles Trajectories Under the Coupled Action of 3D Force Fields,”
European
Physical Journal,
Vol. 12, 2000, pp. 211-216.
[14] Zebel,G., “Deposition of Aerosol Flowing Past a Cylindrical Fiber in a Uniform Electric
Field,”
Journal of Colloid Science,
Vol. 20, 1965, pp. 522-543.
[15] Berthier
J., et al., “Magnetic Confinement of Paramagnetic Micro and Nano-Particles
Away from Solid Walls,”
IEEE Trans. on Magnetics
, Vol. 38, Issue 2, March 2002,
pp. 913-916.
[16] Berthier, J., et al., “Numerical Modeling of Paramagnetic Microparticles Trajectories in a
Densely Packed Ferromagnetic Wire Bundle,”
CFEC Conference
, Milwaukee, WI, 2000.
[17] Davies, L. P., and R. Gerber, “2D Simulation of Ultra-Fine Particle Capture by a Single-
Wire Magnetic Collector,”
IEEE Trans. on Magnetics
, Vol. 26, No. 5, September 1990,
pp. 1867-1869.
[18] R. Beckett, et al., “Measurement of Mass and Thickness of Adsorbed Films on Colloidal
Particles by Sedimentation Field-Flow Fractionation,”
Langmuir
, Vol. 7, No. 10, 1991,
pp. 2040-2047.
[19] Rheinlaender, T., et al., “Different Methods for the Fractionation of Magnetic Fluids,”
Col-
loid Polym. Sci
., Vol. 278, 2000, pp. 259-263.
[20] Rheinlaender, T., et al., “Comparison of Size-Selective Techniques for the Fractionation
of Magnetic Fluids,”
Journal of Magnetism and Magnetic Materials
, Vol. 214, 2000,
pp. 269-279.
[21] J. Berthier, P. Pham, and P. Massé
.
, “Numerical Modeling of Magnetic Field Flow Fraction-
ation in Microchannels: A Two-Fold Approach Using Particle Trajectories and Concentra-
tion,”
MSM 2001 Conference
, Hilton Head Island, SC, March 19-21, 2001.
[22] Alward, J., and W. Imaino, “Magnetic Forces on Monocomponent Toner,”
IEEE Trans. on
Magnetics
, Vol. MAG-12, No. 2, 1986, pp. 128-133.
[23] Eisenstein, I., “Magnetic separators: Traction Force Between Ferromagnetic and Para-
magnetic Spheres,”
IEEE Trans. on Magnetics
, Vol. MAG-13, No. 5, September 1976,
pp. 1646-1648.
[24] Furst, E. M., et al., “Permanently Linked Monodispersed Paramagnetic Chains,”
Lang-
muir
, Vol. 14, No. 26, 1998, pp. 7334-7336.
[25] Doyle, P. S., et al., “Self-Assembled Magnetic Matrices for DNA Separation Chip,”
Science
,
Vol. 295, March 2002, pp. 2237.
[26] Perez-Castillejos, R., et al., 'The Use of Ferrofluids in Micromechanics,”
Sensors and Ac-
tuators A (Physical)
, Vol. A84, No. 1-2; 1 August 2000, pp. 176-180.
[27] Rosensweig, R. E.,
Ferrohydrodynamics
, New York: Cambridge University Press, 1985.
[28]
Berthier, J., and F. Ricoul, “Numerical Modeling of Ferrofluid Flow Instabilities in a Capil-
lary Tube at the Vicinity of a Magnet,”
Technical Proceedings of the 2002 International
Conference on Modeling and Simulation of Microsystems
, Vol. 1, 2002, p. 764.
[29] Cooney, C.G., and B.C. Towe, “A Thermopneumatic Dispensing Micropump,”
Sensors
and Actuators A
, Vol. 116, 2004, pp. 519-524.
[30] Khoo, M., and C. Liu, “Micro Magnetic Silicone Elastomer Membrane Actuator,”
Sensors
and Actuators A: Physical
, Vol. 89, Issue 3, 15 April 2001, pp. 259-266.
[31] Berthier, J., and F. Ricoul, “Development of Magnetic Micromembranes for the Actuation
of Fluids in Biological and Chemical Microsystems,”
Applied Nanoscience
, Vol. 1, 2004.
[32] Timoshenko, S., and S. Woinowski-Krieger,
Theory of Plates and Shells
, 2nd ed., New
York: McGraw-Hill, 1959.