A Bio-Manipulation Method Based on the Hydrodynamic Force of Multiple Microfluidic Streams
Yaxiaer Yalikun, Yoshitake Akiyama, Takayuki Hoshino,
and Keisuke Morishima
Graduate School of Engineering, Department of Mechanical Engineering, Osaka University, 2-1 Yamadaoka, Suita 565-0871, Japan
-  T. Fukuda and F. Arai, “Prototyping design and automation of micro/nano manipulation system,” Proc. of IEEE Int. Conf. on Robotics and Automation, Vol.1, pp. 192-197, 2000.
-  B. Solano and D. Wood, “Design and testing of a polymeric micro gripper for cell manipulation. Microelectronic Engineering,” Microelectronic Engineering, Vol.84, pp. 1219-1222, 2007.
-  F. Beyeler, S. Member, A. Neild, S. Oberti, D. J. Bell, Y. Sun, and J. Dual, “Monolithically Fabricated Microgripper With Integrated Force Sensor for Manipulating Micro objects and Biological Cells Aligned in an Ultrasonic Field,” J. of Microelectromechanical Systems, Vol.16, No.1, pp. 7-15, 2007.
-  A. Ashkin, “Optical Trapping and Manipulation of Neutral Particles Using Lasers: A Reprint Volume With Commentaries,” World Scientific Publishing Company, 2006.
-  K. C. Neuman and S. M. Block, “Optical trapping,” Review of Scientific Instruments, Vol.75, pp. 2787-2809, 2004.
-  P. Y. Chiou, A. T. Ohta, and M. C. Wu, “Massively Parallel Manipulation of Single Cells and Micro particles Using Optical Images,” Nature, Vol.436, pp. 370-372, 2005.
-  A. E. Cohen, “Control of nanoparticles with arbitrary twodimensional force fields,” Physical review letters, Vol.94, p. 118102, 2005.
-  H.M. Hertz, “Standingwave acoustic trap for nonintrusive positioning of micro particles,” J. of Applied Physics, Vol.78, pp. 4845-4849, 1995.
-  S. Grilli and F. Pietro, “Electrophoretic trapping of suspended particles by selective pyroelectric effect in lithium niobate crystals,” Applied Physics Letters, Vol.92, pp. 232902-232902-3, 2008.
-  S. K. Srivastava, A. Gencoglu, and A. R. Minerick, “DC insulator dielectrophoretic applications in microdevice technology: a review,” Analytical and Bioanalytical Chemistry, Vol.399, pp. 301-321, 2010.
-  D. D. Carlo, Y. L. Wu, and P. L. Luke, “Dynamic Single Cell Culture Array,” Lab on a Chip, Vol.6, pp. 1445-1449, 2006.
-  B. R. Lutz, J. Chen, and D. T. Schwartz, “Hydrodynamic Tweezers: 1. Noncontact Trapping of Single Cells Using Steady Streaming Microeddies,” Analytical Chemistry, Vol.78, pp. 5429-5435, 2006.
-  M. Hagiwara, T. Kawahara, and F. Arai, “Local streamline generation by mechanical oscillation in a microfluidic chip for noncontact cell manipulations,” Applied Physics Letters, Vol.101, pp. 074102-074102-4, 2012.
-  M. Tanyeri, E. M. Johnson-Chavarria, and C. M. Schroeder, “Hydrodynamic trap for single particles and cells,” Applied Physics Letters, Vol.96, pp. 1786-1794, 2010.
-  Z. X. Liu, Z. Q. Chen, and M. H. Shi, “Thermophoresis of particles in aqueous solution in micro-channel,” Applied Thermal Engineering, Vol.29, No.5-6, pp. 1020-1025, 2009.
-  S. Iwaki, H. Morimasa, T. Noritsugu, and M. Kobayashi, “Contactless manipulation of an object on a plane surface using multiple air jets,” Proc. of IEEE Int. Conf. on Robotics and Automation, pp. 3257-3262, 2011.
-  J. P. Owen and W. S. Ryu, “The effects of linear and quadratic drag on falling spheres: an undergraduate laboratory,” European Journal of Physics, Vol.26, pp. 1085-1091, 2005.
-  R. Wayne and M. P. Staves, “The density of the cell sap and endoplasm of Nitellopsis and Chara,” Plant and Cell Physiology, Vol.32, No.8, pp. 1137-114, 1991.
Supporting Online Materials:[a] http://youtu.be/gCEJBJfWIVA [Accessed July 18, 2013]
This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.
Copyright© 2013 by Fuji Technology Press Ltd. and Japan Society of Mechanical Engineers. All right reserved.