Interdisciplinary Applied Mathematics

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Kihm, K. D., Banarjee, A., Choi, C. K., and Takagi, T. (2004). Near-wall hindered Brownian diffusion of nanoparticles examined by three dimensional ratiometric total internal reflection fluorescence microscopy (3D R-TIRFM). Experiments in Fluids, 37:811-824.

Kim, E., Xia, Y., and Whitesides, G. M. (1997). Two- and three-dimensional crystallization of polymeric microspheres by micromolding capillaries. Advanced Materials, 8:245-247.

Kim, H.-J. (2004). Quantification of chaotic mixing in microfluidic systems. Master’s thesis, Texas A&M University, College Station, TX.

Kim, M. J., Kihm, K. D., and Beskok, A. (2002). A comparative study of ^-PIV measurements and numerical simulations of electroosmotic flows in various micro-channel configurations. Exp. Fluids, 33:170-180.

Kim, S. and Karrila, S. J. (1991). Microhydrodynamics: Principles and Selected Applications. Butterworth-Heinemann.

Kittilsland, G., Steme, G., and Nordoen, B. A. (1990). Submicron particle filter in silicon. Sens. Actuators, A: Physical, 23:904-907.

Kleparnik, K., Mala, Z., and Bocek, P. (2001). Fast separation of DNA sequencing fragments in highly alkaline solutions of linear polyacrylamide using electrophoresis in bare silica capillaries. Electrophoresis, 22:783-788.

Knudsen, M. (1909). Die Gesetze der Molekularstromung und der inneren Rei-bungsstromung der Gase durch Rohren. Annalen der Physik, 28:75-130.

Knudsen, M. (1910a). Eine Revision der Gleichgewichtsbedingung der Gase. Thermische Molekularstromung. Ann. Phys., 31:205-229.

Knudsen, M. (1910b). Thermischer Molekulardruck der Gase in Rohren. Ann. Phys., 33:1435-1448.

Kogan, M. (1969). Rarefied Gas Dynamics. Plenum Press, New York.

Kogan, M. N., Galkin, V. S., and Fridlender, O. G. (1976). Stresses produced in gases by temperature and concentration inhomogeneities. New type of free convection. Sov. Phys. Usp., 19:420-438.

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