參考文獻
1. D. Reyes, D. Iossifidis, P. Auroux, A. Manz, “Micro totalanalysis systems.Part1.Introduction,theory,and technology”,Anal.Chem.
74 (2002) 2623–2636.
2. P.Auroux,D.Iossifidis,D.Reyes,A.Manz,“Micro totalanalysis systems. Part 2. Analytical standard operations and applications”, Anal. Chem. 74 (2002) 2637–2652.
3. A.Tudos,G.Besselink,R.Schasfoort,“Trendsin miniaturized total analysis systems for point-of-caretesting in clinicalchemistry”,Lab Chip 1 (2001) 83–95.
4. E.Verpoorte,“Microfluidicchipsforclinicaland forensicanalysis”, Electrophoresis 23 (2002) 677–712.
5. A. van den Berg, T. Lammerink, “Micro total analysis systems: microfluidicaspects,integration conceptand applications”,Top.Curr. Chem. 194 (1998) 21–49.
6. A. Darion, M. Sequeira, G. Pennarun-Thomas, H. Dirac, J. Krog, P.
Gravensen, J. Lichtenberg, D. Diamond, E. Verpoorte, N. de Rooij,
“Chemicalsensing using an integrated microfluidicsystem based on theBerthelotreaction”,Sensorsand.ActuatorsB 76 (2001)235–243.
7. E. Verpoorte, B. van der Schoot, S. Jeanneret, A. Manz,
“3-dimensional micro-flow manifolds for miniaturized chemical analysissystems”,J.Micromech.Microeng.4 (1994)246–256.
8. J. Harrison, K. Fluri, K. Seiler, Z. Fan, C. Effenhauser, A. Manz,
“Micromachning a miniaturized capillary electrophoresis-based chemicalanalysissystem on chip”,Science261 (1993)895–897.
9. Lippman G, Relation Entre Les,“Phenomens electriues et capillaries”, Ann. Chim. Phys, 187; 5: 494-59.
10. Michael G. Pollacka and Richard B. Fairb, “Electrowetting-based actuation of liquid dropletsformicrofluidicapplications”,APPLIED PHYSICS LETTERS VOLUME 77, NUMBER 11.
11. Neil Fortner and Benjamin Shapiro, “Equilibrium and Dynamic Behavior of Micro Flows Under Electrically Induced Surface Tension Actuation Forces”,AerospaceEngineering, University of Maryland
12. J. Lee, and C.-J. Kim, “Surface Tension Driven Microactuation
Based on Continuous Electrowetting (CEW)”, Journal of Microelectro -mechanicalSystems, Vol. 9, No. 2, Jun. 2000, pp.
171-180.
13. Junghoon Lee, Hyejin Moon, Jesse Fowler, Thomas Schoel -lhammer, Chang-Jin Kim,“Electrowetting and Electrowetting on Dielectricfor Microscale liquid handling”,Sensorand Actuator A 95(2002)
14. Jun Zeng and Tom Korsmeyer,“Principlesofdropletelectro- hydro dynamics for lab-on-a-chip ”,L a b C h i p , 2 0 0 4 , 4 , 2 6 5 –2 7 7
15. Jeong-YeolYoon and Robin L.Garrell,“Preventing Biomolecular Adsorption in Electrowetting-Based BiofluidicChip”,Anal.Chem.
2003, 75, 5097-5102
16. Sung Kwon Cho, Hyejin Moon, and Chang-Jin Kim, “Creating, Transporting, Cutting, and Merging Liquid Droplets by Electro -wetting -Based Actuation forDigitalMicrofluidicCircuits”,Journal of Micro- electromechanical Systems, Vol. 12, NO.1. Feb 2003.
17. H. Moon, S. K. Cho, R. L. Garrell, and C.-J.Kim,“Low Voltage electrowetting -on-dielectric”,JournalofApplied Physics,Vol.92, No. 7, pp.4080-4087, 2002
18. H.J.J.Verheijen and M.W.J.Prins,“Reversibleelectrowetting and trapping of charge: model and experiments”, Langmuir 1999, 15, 6616-6620
19. Jan Lienemann, AndreasGreiner,and Jan G.Korvink ,“Modeling, Simulation and Optimization ofElectrowetting ”, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, VOL.
25, NO. 2, FEBRUARY 2006
20. S. K. Cho, H. Moon, J. Fowler, S.-K. Fan, and C.-J. Kim,“Splitting a Liquid Droplet for Electrowetting-Based Microfluidics”, Int. Mechanical Engineering Congress and Exposition, New York, NY, Nov. 2001,IMECE2001/MEMS-23831
21. Shawn W. Walker and Benjamin Shapiro, “Modeling the Fluid Dynamics of Electro-Wetting On Dielectric(EWOD)”,JOURNAL OF MICRO –ELECTRO MECHANICAL SYSTEMS, 2004
22. Van Doormaal, J. P., and Raithby, G. D., “Enhancements of The SIMPLE Method for Predicting Incompressible Fluid Flows”, Numerical Heat Transfer, Vol. 7, No. Heat Transfer, 1984, pp. 147-163.
23. Kothe, D. B., Rider, W. J., Mosso, S. J., Brock, J. S., Hochstein, J. I.,
“VolumeTracking ofInterfacesHaving SurfaceTension in Two and Three Dimensions”, Technical Report AIAA 96-0859, Presented at the 34th Aerospace Sciences Meeting and Exhibit.
24. Brackbill, J. U., Kothe, D. B., and Zemach, C., “A Continuum Method for Modeling Surface Tension”, Journal Computational Physics, Vol. 100, Issue 2, 1998, pp. 335-354
25. Pilliod, J. E., and Puckett, E. G.., “Second OrderVolume-of-Fluid Interface Tracking Algorithms”, Unpublished manuscript, to be submitted to Journal Computational Physics (1996)
26. Noh,W.F.,and Woodward,P.R.,“SLIC(Simple Line Interface Method)”, In A.I. Van de Vooren and Zandbergen, P. J., editors,Vol. 59, Springer-Verlag, 1976, pp. 330-340.
27. Youngs, D. L., “Time-Dependent Multi-Material Flow with Large Fluid Distortion”, Morton[, K. W., and Baines, M. J., editor, Numerical Methods for Fluid Dynamics 1982, pp. 273-285
28. Pilliod, J. E, and Puckett, E. G , “Second Order Volume-of-Fluid Interface Tracking Algorithms”, Journal Computational Physics, Vol.
188, No. 1, 2003, pp.100-122
29. Parker, B. J., and Youngs, D. L., “Two and Three Dimensional Eulerian Simulation of Fluid Flow with Material Interfaces”, Technical Report AWE 01/92, Atomic Weapons Establishment(1992).
Presented at the Third Zababakhin Scientific Talks,Kyshitm, Russia (1992).
30. Dukowicz, J. K., “Efficient Volume Computation For Three -Dimensional Hexahedral Cells”, Journal Computational Physics, Vol.
74, No. 2, 1988, pp. 493-496.
31. Zemach, C., “Noteson theVolumeofaRuled Hexahedron Behind a Truncating Plane”, Unpublished Manuscript, Los Alamos National Laboratory, 1993.
簡歷
作者:林國華 生日:1980.12.10 籍貫:台灣南投 學歷:
民國 93 年 9 月至 95 年 6 月 國立交通大學機械工程碩士班