Faculty

Information
Experiences
Publication (Papers)
Projects
Books/Patents/Technology Transfer
Honors
Holding Academic Activities

Information

	Name:	Ruey-Jen Yang (Honorary Chair Professor)
	Position:
	Administrative duties:
	Highest Degree:	Ph.D (1982) University of California-Berkeley
	Office Tel.:	63343
	E-mail:	rjyang@ncku.edu.tw
	Achievement:	https://researchoutput.ncku.edu.tw/en/persons/ruey-jen-yang
	Lab name:	Computing and Microfluidics Lab
	Specialities:	Microfluidic/Nanofluidic Systems, Electrokinetic Fluid Dynamics, Cell Mechanics, Bifurcation Theory, Numerical Methods, Turbulence, Turbomachinery Computational Physics: CFD, LBM, Shock Wave, Ultrafast Heat Transfer, Micro-/Nano-fluidics: Microchip Design, Fabrication, Test, Electroosmotic Flow, Injection, Mixing, Manipulation, Optofluidics

Experiences

Time	Name
1979~1982	Research Assistant, Lawrence Berkeley Lab., University of California, U.S.A.
1982~1984	Research Scientist, Scientific Research Associates, Inc. U.S.A.
1984~1993	Senior Member of Technical Staff, Rocketdyne Div, Boeing Company, U.S.A.
1993~1996	Associate Professor of Engineering Science, National Cheng Kung University
1996~迄今	NCKU Chair Professor
1996~2000	Professor of Engineering Science, National Cheng Kung University
2000~2003	Department Head of Engineering Science, National Cheng Kung University
2000~迄今	Journal of Aeronautical, Astronautical and Aviation, Associate Editor
2002~迄今	Regional Editor of CFD JOURNAL
2003~迄今	NCKU Distinguished Professor
2004~2005	Deputy Director of NCKU Yen Tjing-Ling Industrial Technology Research and Development Center
2007~2011	Director General, NCKU Research & Services Headquarters
2008~迄今	Microfluidics and Nanofluidics Editorial Advisory Board
2011~2015	University Librarian, NCKU Library
2012~迄今	NCKU Chair Professor
2012~迄今	Journal of Mechanics, Associate Editor

Journal Papers

No.	Title
1	Liang, W.-H., Chu, C.-H. and Yang, R.-J., (2015), “Bio-sample detection on paper-based devices with inkjet printer-sprayed reagents,” Talanta, Vol. 145, pp. 6-11. (SCI)
2	Yeh, H.-C., Chang, C.-C. and Yang, R.-J., (2015), “Electro-osmotic pumping and ion-concentration polarization based on conical nanopores,” Physical Review E, Vol. 91, lssue. 6, 062302, (SCI).
3	Chao, C.-C., Chiu, P.-H. and Yang, R.-J., (Feb. 2015), “Preconcentration of diluted biochemical samples using microchannel with integrated nanoscale Nafion membrane,” Biomedical Microdevices, Vol. 17:25, (SCI).
4	Yang, R.-J., Pu, H.-H. and Wang, H.-L., (Jan. 2015),“Ion concentration polarization on paper-based microfluidic devices and its application to preconcentrate dilute sample solutions,” Biomicrofluidics, Vol. 9, No. 1, 014122 (SCI).
5	Weng, C.-H., Chen, M.-Y., Shen, C.-H. and Yang, R.-J., (2014), “Colored wax-printed timers for two-dimensional and three-dimensional assays on paper-based devices,” Biomicrofluidics, Vol. 8 No. 6, 066502, (SCI).
6	Yeh, H.-C., Wang, M., Chang, C.-C. and Yang, R.-J., (2014), “Fundamentals and Modeling of Electrokinetic Transport in Nanochannels,” Israel Journal of Chemistry, Vol. 54, No. 11-12, pp. 1533-1555 (SCI).
7	Fu, L.-M., Ju, W.-J., Liu, C.-C., Yang, R.-J., Wang, Y.-N., (2014) “Integrated microfluidic array chip and LED photometer system for sulfur dioxide and methanol concentration detection,” Chemical Engineering Journal, Vol. 243, May, pp. 421-427, (SCI).
8	Yeh, H.-C., Chang, C.-C. and Yang, R.-J., (2014), “Reverse Electrodialysis in Conical-shaped Nanopores: Salinity Gradient-driven Power Generation,” RSC Advances, Vol. 4, No. 6, pp. 2705-2714. (SCI).
9	Chang, C.-C., Kazoe, Y., Morikawa, K., Mawatari, K., Yang, R.-J., Kitamorei, T, (2013), “Numerical Simulation of Proton Distribution with Electric Double Layer in Extended Nanospaces,” Analytical Chemistry, Vol. 85, No.9, pp.4468-4474.(SCI).
10	Chiu, P.-H., Chang, C.-C. and Yang, R.-J., (2013), “Electrokinetic micromixing of charged and non-charged samples near nano-microchannel junction,” Microfluidics and Nanofluidics, Vol. 14, No. 5, pp.839-844, (SCI).
11	Wang, H.-L., Wu, H.-C., Wang, S.-K., Hung, T.-C. And Yang, R.-J., (2013), “A Study of Mini-channel Thermal Module Design for Achieving High Stability and High Capability in Electronic Cooling,” Applied Thermal Engineering, Vol. 51, No. 1-2, pp. 1144-1153, (SCI).
12	Fu, L.-M., Ju, W.-J., Yang, R.-J., Wang, Y.-N., (2013) “Rapid Prototyping of Glass-Based Microfluidic Chips Utilizing Two-Pass Defocused CO2 Laser Beam Method,” Microfluidics and Nanofluidics, Vol. 14, No. 3, pp.479-487, (SCI).
13	Chen, W.-C., Gao, C.-Z. and Yang, R.-J., (2013), “Numerical Investigation of Ultrafiltration Profiles in Peritoneal Dialysis with Residual Icodextrin in Blood,” Journal of Medical and Biological Engineering, Vol. 33, No. 6, pp. 583-589. (SCI).
14	Chao, K.-S., Lina,M.-S. and Yang,R.-J., (2013), “An in-plane optofluidic microchip for focal point control,” Lab on a Chip, Vol. 13, No. 19, pp.3886-3892, (SCI).
15	Fu, L.-M., Ju, W.-J., Tsai, C.-H., Hou, H.-H., Yang, R.-J., Wang, Y.-N., (2013) “Chaotic Vortex Micromixer Utilizing Gas Pressure Driving Force,” Chemical Engineering Journal, Vol. 214, No. 1, pp.1-7, (SCI).
16	Wang, Y.-N, Yang, R.-J., Ju, W.-J., Wu, M.-C. and Fu,L.-M., (2012) “Convenient Quantification of Methanol Concentration Detection Utilizing an Integrated Microfluidic Chip,” Biomicrofluidics, Vol. 6 No. 3, 034111, (SCI)
17	Yang, R.-J., Hou, H.-H., Wang, Y.-N. and Fu,L.-M., (2012), “A Hydrodynamic Focusing Microchannel Based on Micro-Weir Shear Lift Force,” Biomicrofluidics, , Vol. 6 No. 3, 034110, (SCI).
18	Chang, C.-C., Yang, R.-J., Wang, M, Miau, J.-J. and Lebiga, V. (2012), “Liquid flow retardation in nanospaces due to electroviscosity: Electrical double layer overlap, hydrodynamic slippage, and ambient atmospheric CO2 dissolution,” Physics of Fluids, Vol. 24, No.7, 072001, (SCI).
19	Yeh, C.-P., Du, S.-W., Tsai, C.-H. and Yang, R.-J., (2012), “Numerical Analysis of Flow and Combustion Behavior in Tuyere and Raceway of Blast Furnace Fueled with Pulverized Coal and Recycled Top Gas,” Energy, Vol.42, No.1, pp.233-240, (SCI).
20	Chen, C.-L. and Yang, R.-J., (2012), “Effects of Microchannel Geometry on Preconcentration Intensity in Microfluidic Chips with Straight or Convergent-Divergent Microchannels,” Electrophoresis, Vol.33, No.5, pp.751-757, (SCI).
21	Chang, C.-C., Yeh, C.-P. and Yang, R.-J. (2012), “Ion Concentration Polarization Near Microchannel-Nanochannel Interfaces: Effect of pH Value,” Electrophoresis, Vol.33, No.5, pp.758-764, (SCI).
22	Chao, K.-S., Lin, T.-Y. and Yang, R.-J., (2012), “Two Optofluidic Devices for the Refractive Index Measurement of Small Volume of Fluids,” Microfluidics and Nanofluidics, Vol. 12, No. 5, pp.697-704, (SCI).
23	Yeh, C.-P., Ho, C.-K., Yang, R.-J. (2012),”Conjugate Heat Transfer Analysis of Copper Staves and Sensor Bars in a Blast Furnace for Various Refractory Lining Thickness,” International Communications in Heat and Mass Transfer, Vol. 39, No. 1, pp58-65, (SCI).
24	Tsai,C.-H., Yeh, C.-P., Lin, C.-H., Yang, R.-J. and Fu, L.-M., (2012), “Formation of recirculation zones in a sudden expansion microchannel with a rectangular block structure over a wide Reynolds number range,” Microfluidics and Nanofluidics, Vol. 12, No. 1, pp.213-220, (SCI).
25	Ju, W.-J., Fu, L.-M., Yang, R.-J. and Lee, C.-L., (2012), “Distillation and detection of SO2 using a microfluidic chip,” Lab on a Chip, Vol. 12, No. 3, pp.622-626, (SCI).
26	Chiu, P.-H., Yang, R.-J., Lee, C.-Y. and Fu, L.-M., (2012), “Electromagnetic Actuator Utilizing Magnetic Film of Electroplated Alloy and Its Application to Valveless Pumps,” Advanced Science Letters, 14, 244-248. (SCI).
27	Ju, W.-J., Hong, T.-F., Yang, R.-J., Fu, L.-M. and Lee, C.-Y., (2012) “Rapid Fabrication of Glass–Based Microfluidic Chips Utilizing a Femtosecond Laser,” Advanced Science Letters, 8, 416-420. (SCI).
28	Lee, H.-C., Hou, H.-H., Yang, R.-J., Lin, C.-H. and Fu, L.-M., (2011), “Microflow Cytometer Incorporating Sequential Micro-weir Structure for Three-dimensional Focusing,” Microfluidics and Nanofluidics, Vol. 11, No. 4, pp.469-478, (SCI).
29	Hou, H.-H., Wang, Y.-N., Chang, C.-L., Yang, R.-J. and Fu, L.-M., (2011), “Rapid glucose concentration detection utilizing disposable integrated microfluidic chip,” Microfluidics and Nanofluidics, Vol. 11, No. 4, pp.479-487, (SCI).
30	Chang, C.-C. and Yang, R.-J. (2011), “Electrokinetic Energy Conversion Efficiency in Ion-selective Nanopores,” Applied Physics Letters, Vol.99, No.8, 083102, (SCI). Also this paper has been selected for the September 5, 2011 issue of Virtual Journal of Nanoscale Science & Technology. This paper was selected for highlighting in Nature Publication Group (NPG) Asia Materials website (http://www.nature.com/am/journal/2011/201111/full/am2011192a.html).
31	Yeh, H.-C., Yang, R.-J. and Luo, W.-J. (2011), “Analysis of traveling-wave electro-osmotic pumping with double-sided electrode arrays,” Physical Review E, Vol. 83, No. 5, 056326. (SCI).
32	Yeh, H.-C., Yang, R.-J., Luo, W.-J., Jiang, J.-Y., Kuan, Y.D. and Lin, X.-Q. (2011), “The performance analysis of direct methanol fuel cells with different hydrophobic anode channels,” Journal of Power Sources, Vol. 196, No. 1, pp.270-278, (SCI).
33	Su, Y.-H., Lee, C.-Y. and Yang, R.-J., (2011), “Analysis of Aromatic Volatiles Utilizing a MEMS-based Gas Chromatography,” Advanced Materials Research, Vol. 295-297, pp.2642-2646. (EI)
34	Yeh, C.-P., Tsai, C.-H., Yang, R.-J. (2010), “An Investigation into the Sheltering Performance of Porous Windbreaks under Various Wind Directions,” Journal of Wind Engineering and Industrial Aerodynamics, Vol. 98, No. 10-11, pp.520-532, (SCI).
35	Chang, C.-C. and Yang, R.-J. (2010), “Electrokinetic Energy Conversion in Micrometer-length Nanofluidic Channels,” Microfluidics and Nanofluidics, Vol. 9, No. 2-3, pp.225-241, (SCI).
36	Chou, Y. and Yang, R.-J. (2010), “Numerical Solutions for Isoelectric Focusing and Isotachophoresis Problems,” Journal of Chromatography A, Vol. 1217, Issue 3, pp.394-404, (SCI).
37	Wang, M, Chang, C.-C. and Yang, R.-J. (2010), “Electroviscous Effects in Nanofluidic Channels,” The Journal of Chemical Physics, Vol. 132, Issue 2, 024701, (SCI).
38	Chang, C.-C. and Yang, R.-J. (2009), “A Perspective on Streaming Current in Silica Nanofluidic Channels: Poisson-Boltzmann model versus Poisson-Nernst-Planck model,” Journal of Colloid and Interface Science, Vol. 339, No. 2, pp.517-520, (SCI).
39	Nithyadevi, N. and Yang, R.-J. (2009), “Double Diffusive Natural Convection in a Partially Heated Enclosure with Soret and Dufour Effects,” International Journal of Heat and Fluid Flow, Vol. 30, No. 5, pp.902-910, (SCI).
40	Hou, H.-H., Tsai, C.-H., Fu, L.-M. and Yang, R.-J. (2009), “Experimental and Numerical Investigation into Micro-flow Cytometer with 3-D Hydrodynamic Focusing Effect and Micro-Weir Structure,” Electrophoresis, Vol.30, No.14, pp.2507-2515, (SCI
41	Chang, C.-C. and Yang, R.-J. (2009), “Chaotic Mixing in Electro-osmotic Flows Driven by Spatiotemporal Surface Charge Modulation,” Physics of Fluids, Vol. 21, 052004, (SCI). Also this paper has been selected for the June 1, 2009 issue of Virtual Journal of Biological Physics Research.
42	Chou, Y. and Yang, R.-J. (2009), “Simulations of IEF in Microchannel with Variable Cross-sectional Area,” Electrophoresis, Vol. 30, No. 5, pp.819-830, (SCI).
43	Nithyadevi, N. and Yang, R.-J. (2009), “Magnetoconvection in an Enclosure of Water near Its Density Maximum with Soret and Dufour Effects,” International Journal of Heat and Mass Transfer, Vol. 52, No. 7-8, pp.1667-1676, (SCI).
44	Lee, C-Y, Wen, C-Y, Hou, H-H, Yang, R-J, Tsai, C-H, and Fu, L-M, (2009) “Design and Characterization of MEMS-Based Flow-Rate and Flow-Direction Microsensor,” Microfluidics and Nanofluidics, Vol. 6, No. 3, pp.363-371, (SCI).
45	Pan, Y.-J. and Yang, R.-J., (2009), “An Investigation of the Effects of Inlet Channel Geometry on Electrokinetic Instabilities,” Biomedical Microdevices, Vol.11, No.1, pp.9-16, (SCI).
46	Chou, Y. and Yang, R.-J. (2009), “Two-Dimensional Dual-Phase-Lag Thermal Behavior in Single-/Multi-Layer Structures Using CESE Method,” International Journal of Heat and Mass Transfer, Vol. 52, No. 1-2, pp.239-249, (SCI).
47	Chen, J.-K., Weng, C.-N. and Yang, R.-J. (2009), “Assessment of three AC electroosmotic flow protocols for mixing in microfluidic channel,” Lab on a Chip, Vol. 9, No. 9, pp.1267-1273, (SCI).
48	Huang, K.-D. and Yang, R.-J. (2008), “A nanochannel-based concentrator utilizing the concentration polarization effect,” Electrophoresis, Vol. 29, No. 24, pp.4862-4870, (SCI).
49	Chen, J.-K. and Yang, R.-J. (2008), “Vortex Generation in Electroosmotic Flow Passing through Sharp Corners,” Microfluidics and Nanofluidics, Vol. 5, No. 6, pp.719-725, (SCI).
50	Huang, K.-D. and Yang, R.-J. (2008), “Formation of Ionic Depletion/Enrichment Zones in a Hybrid Micro-/Nano-channel”, Microfluidics and Nanofluidics, Vol. 5, No. 5, pp. 631-638, (SCI).
51	Huang, K.-D., Yang, S.-C., Huang, Z.-X. and Yang, R.-J. (2008), “Particle Handling in Straight Microfluidic Channels via Opposing Electroosmotic and Pressure-Driven Flows”, Microfluidics and Nanofluidics, Vol. 5, No. 2, pp.245-253, (SCI).
52	Kao, P.-H, Chen, Y.-H. and Yang, R.-J., (2008), “Simulations of the Macroscopic and Mesoscopic Natural Convection Flows within Rectangular Cavities,” International Journal of Heat and Mass Transfer, Vol. 51, No. 15-16, pp.3776-3793, (SCI).
53	Chou, Y. and Yang, R.-J. (2008), “Application of CESE Method to Simulate Non-Fourier Heat Conduction in Finite Medium with Pulse Surface Heating,” International Journal of Heat and Mass Transfer, Vol. 51, No. 13-14, pp.3525-3534, (SCI).
54	Kao, P.-H. and Yang, R.-J., (2008), “An Investigation into Curved and Moving Boundary Treatments in the Lattice Boltzmann Method,” Journal of Computational Physics, Vol. 227, No. 11, pp. 5671-5690, (SCI).
55	Chang, C.-C. and Yang, R.-J. (2008), “Chaotic mixing in a microchannel utilizing periodically switching electro-osmotic recirculating rolls,” Physical Review E, Vol.77, No. 5, 056311. (SCI). Also this paper has been selected for the June 2, 2008 issue of Virtual Journal of Nanoscale Science & Technology.
56	Yu, J.-W., Chou, Y. and Yang, R.-J. (2008), “High-Resolution Modeling of Isotachophoresis and Zone Electrophoresis,” Electrophoresis, Vol.29, No.5, pp.1048-1057, (SCI).
57	Chang, C.-C. and Yang, R.-J. (2008), “Hydrodynamic Focusing Effect on Two-Unmixed-Fluid in Microchannels,” International Journal of Nonlinear Sciences and Numerical Simulation, Vol. 9, No. 3, pp. 213-220, (SCI).
58	Kao, P.-H, Ren, T.-F. and Yang, R.-J., (2007), “An Investigation into Fixed-bed Microreactors Using Lattice Boltzmann Method Simulations,”International Journal of Heat and Mass Transfer, Vol. 50, No. 21-22, pp.4243-4255, (SCI).
59	Chang, C.-C. and Yang, R.-J., (2007), “Electrokinetic Mixing in Microfluidic Systems,” (Invited Review Paper), Microfluidics and Nanofluidics, Vol. 3, No. 5, pp.501-525, (SCI).
60	Pan, Y.-J. and Yang, R.-J., (2007), “Fabrication of UV Epoxy Resin Masters for the Replication of PDMS-Based Microchips,” Biomedical Microdevices, Vol.9, No.4, pp.555-563, (SCI).
61	Kao, P.-H and Yang, R.-J., (2007), “Simulating oscillatory flows in Rayleigh-Benard convection using the lattice Boltzmann method,”International Journal of Heat and Mass Transfer, Vol. 50, No. 17-18, pp.3315-3328, (SCI).
62	Chang, C.-C. Huang, Z.-X and Yang, R.-J.,(2007), “Three-dimensional Hydrodynamic Focusing in Two-layer Polydimethylsiloxane (PDMS) Microchannels,” Journal of Micromechanics and Microengineering, Vol. 17, No. 8, pp.1479-1486, (SCI).
63	Chou, Y. and Yang, R.-J., (2007), “The Evaporation of a Saturated Porous Layer inside an Inclined Airflow Channel,” International Journal of Heat and Fluid Flow, Vol. 28, No. 3, pp.407-417, (SCI).
64	Pan, Y.-J., Ren, C.-M. and Yang, R.-J., (2007), “Electrokinetic Flow Focusing and Valveless Switching Integrated with Electrokinetic Instability for Mixing Enhancement,” Journal of Micromechanics and Microengineering, Vol.17, No.4, pp.820-827, (SCI).
65	Huang, K.-D. and Yang, R.-J., (2007), “Electrokinetic behaviour of overlapped electric double layers in nanofluidic channels,” Nanotechnology, Vol. 18, No. 11, 115701, March, 2007. (SCI).
66	Wu, C.-H. Chen, J.-K. and Yang, R.-J., (2007), “Electrokinetically driven flow control using bare electrodes,” Microfluidics and nanofluidics , Vol. 3, No.4, pp.485-494, (SCI).
67	Kao, P.-H and Yang, R.-J., (2007), “A Segregated-Implicit Scheme for Solving the Incompressible Navier-Stokes Equations,” Computers & Fluids, Vol. 36, pp.1159-1161, (SCI).
68	Luo, W.-J. and Yang, R.-J., (2007) “Multiple Fluid Flow and Heat Transfer Solutions in a Two-Sided Lid-Driven Cavity,” International Journal of Heat and Mass Transfer, Vol. 50, No. 11-12, pp.2394-2405, (SCI)
69	Chen, J.-K. and Yang, R.-J., (2007), “Electroosmotic Flow Mixing in Zigzag Microchannels,” Electrophoresis, Vol.28, No.6, pp.975-983, (SCI).
70	Huang, M.-Z., Yang, R.-J., Tai, C.-H., Tsai, C.-H. and Fu, L.-M., (2006), “Application of Electrokinetic Instability Flow for Enhanced Micromixing in Cross-shaped Microchannel,” Biomedical Microdevices, Vo.8, pp.309-315, (SCI).
71	Wu, C.-H. and Yang, R.-J., (2006), “Improvements on the Electrokinetic Injection Technique for Microfluidic Chips,” Electrophoresis, Vol.27, No.24, pp.4970-4981, (SCI).
72	Tai, C.-H, Yang, R.-J., Huang, M.-Z., Liu, C.-W., Tsai, C.-H. and Fu, L.-M., (2006) “Micromixer Utilizing Electrokinetic Instability-Induced Shedding Effect,” Electrophoresis, Vol.27, No.24, pp.4982-4990, (SCI).
73	Tsai, C.-H., Wang, Y.-N., Lin, C.-F., Yang, R.-J. and Fu, L.-M.,(2006) “Experimental and Numerical Investigation into Leakage Effect in Injectors of Microfluidic Devices,” Electrophoresis, Vol.27, No.24, pp.4991-4998, (SCI).
74	Pan, Y.-J. and Yang, R.-J., (2006), “A Glass Microfluidic Chip Adhesive Bonding Method at Room Temperature,” Journal of Micromechanics and Microengineering, Vol.16, No.12, pp.2666-2672, (SCI).
75	Chen, J-K, and Luo, W.-J. and Yang, R.-J., (2006), “Electroosmotic Flow Driven by DC and AC Electric Fields in Curved Microchannels,” Japanese Journal of Applied Physics, Part 1, Vol.45, No.10A, pp.7983-7990, (SCI).
76	Kao, P.-H and Yang, R.-J., (2006), “Safe Zone in Isolation Rooms," Journal of Hospital Infection, Vol. 64, pp.89-90, (SCI).
77	Chang, C.-C. and Yang, R.-J.,(2006), “A particle tracking method for analyzing chaotic electroosmotic flow mixing in 3D microchannels with patterned charged surfaces,” Journal of Micromechanics and Microengineering, Vol. 16, No. 8, pp.1453-1462, (SCI).
78	Wu, C.-H. and Yang, R.-J., (2006), “Improving the Mixing Performance of Side Channel Type Micromixers Using an Optimal Voltage Control Model,” Biomedical Microdevices, Vol.8, pp.119-131, (SCI).
79	Tseng, T.-I and Yang, R.-J., (2006), “Numerical Simulation of Vorticity Production in Shock Diffraction,” AIAA Journal, Vol.44 No.5 pp.1040-1047, (SCI).
80	Huang, K.-D. and Yang, R.-J., (2006), “Numerical modeling of the Joule heating effect on electrokinetic flow focusing,” Electrophoresis, Vol.27, No.10, pp.1957-1966, (SCI).
81	Lee, G.-B., Chang, C.-C., Huang, S.-B. and Yang, R.-J.,(2006), “The hydrodynamic focusing effect inside rectangular microchannels,” Journal of Micromechanics and Microengineering, Vol. 16, No. 5, pp.1024-1032, (SCI).
82	Kao, P.-H and Yang, R.-J., (2006), “Virus Diffusion in Isolation Rooms," Journal of Hospital Infection, Vol. 62, No. 3, pp.338-345, (SCI).
83	Pan, Y.-J., Lin, J.-J., Luo, W.-J. and Yang, R.-J., (2006) “ Sample Flow Switching Techniques on Microfluidic Chips,” Biosensors and Bioelectronics, Vol. 21, No. 8, pp.1644-1648, (SCI).
84	Yang, R.-J., Chang, C.-C., Huang, S.-B. and Lee, G.-B., (2005), “A new focusing model and switching approach for electrokinetic flow inside microchannels,” Journal of Micromechanics and Microengineering, Vol. 15, No.11, pp.2141-2148, (SCI).
85	Tseng, T.-I. and Yang, R.-J., (2005), “Simulation of the Mach Reflection in Supersonic Flows by the CE/SE Method,” Shock Waves, Vol. 14, No.4, pp.307-311, (SCI).
86	Yang, R.-J., Wu, C.-H., and Tseng, T.-I. and Lee, G.-B., (2005), “Enhancement of Electrokinetically-Driven Flow Mixing in Microchannel with Added Side Channels,” Japanese Journal of Applied Physics, Part 1, Vol.44, No.10, pp.7634-7642, (SCI).
87	Fu, L.-M., Yang, R.-J., Lin, C.-H. and Chien, Y.-S., (2005) “Novel microfluidic mixer utilizing electrokinetic driving forces under low switching frequency”, Electrophoresis, Vol. 26, pp.1814-1824, (SCI).
88	Luo, W.-J., Pan, Y.-J. and Yang, R.-J., (2005) “Transient analysis of electro-osmotic secondary flow induced by dc or ac electric field in a curved rectangular microchannel,” Journal of Micromechanics and Microengineering, Vol.15, pp.463-473. (SCI).
89	Tsai, C.-H, Yang, R.-J., Tai, C.-H. and Fu, L.-M., (2005) “Numerical Simulation of Electrokinetic Injection Techniques in Capillary Electrophoresis Microchips,” Electrophoresis, Vol. 26, pp.674-686. (SCI).
90	Yang, R.-J., Tseng, T.-I. and Chang, C.-C., (2005) “End effects on electro-osmotic flows in micro-channels,” Journal of Micromechanics and Microengineering, Vol. 15, pp. 254-262. (SCI).
91	Huang, K.-D. and Yang, R.-J., (2005) “Analysis of Electroosmotic Flow and Ionic Concentration Distribution in a Turning Channel,” Journal of the Chinese Society of Mechanical Engineers, Vol. 26, No. 1, pp.35-43.(EI).
92	Lee, G.-B., Fu, L.-M., Lin, C.-H., Lee, C.-Y. and Yang, R.-J., (2004) “Dispersion Control in Microfluidic Chips by Localized Zeta Potential Variation Using the Field Effect,” Electrophoresis, Vol. 25, No. 12, pp. 1879-1887. (SCI).
93	Fu, L.-M., Lee, G.-B., Lin, Y.-H. and Yang, R.-J., (2004), “Manipulation of microparticles using new modes of traveling-wave-dielectrophoretic forces: Numerical simulation and experiments, ” IEEE/AEME Transactions on Mechatronics, Vol. 9, No. 2, pp.377-383. (SCI).
94	Luo, W.-J. and Yang, R.-J., (2004) “Flow Bifurcation and Transition in a Gap between Two-Rotating Spheres,” Journal of Mechanics, Vol. 20, No.2, pp.95-105. (SCI).
95	Fu, L.-M., Yang, R.-J., Lin, C.-H., Pan, Y.-J. and Lee, G.-B., (2004), “Electrokinetically driven micro flow cytometers with integrated fiber optics for on-line cell/particle detection,” Anal. Chim. Acta, Vol.507, pp.163-169. (SCI).
96	Chang, C.-C. and Yang, R.-J., (2004), “Computational analysis of electrokinetically driven flow mixing in microchannels with patterned blocks,” Journal of Micromechanics and Microengineering, Vol. 14, pp.550-558.(SCI).
97	Lin, C.-H, Yang, R.-J., Tai, C.-H., Lee, C.-Y. and Fu, L.-M., (2004), “Double-L injection technique for high performance capillary electrophoresis detection in microfluidic chips,” Journal of Micromechanics and Microengineering, Vol. 14, pp.639-646.(SCI).
98	Fu, L.-M., Yang, R.-J., Lee, G.-B. and Pan Y.-J., (2003), “Multiple Injection Techniques for Microfluidic Sample Handling,” Electrophoresis, Vol. 24, pp.3026-3032, (SCI).
99	Fu, L.-M., Yang, R.-J., and Lee, G.-B., (2003), “Electrokinetic Focusing Injection Methods on Microfluidic Devices,” Analytical Chemistry, Vol.75, No.8, pp.1905-1910, (SCI).
100	Fu, L.-M. and Yang, R.-J., (2003), “Low-voltage driven control in electrophoresis microchips by traveling electric field,” Electrophoresis, Vol. 24, pp.1253-1260. (SCI).
101	Fu, L.-M., Lin, J.-Y. and Yang, R.-J., (2003) “Analysis of electroosmotic flow with step change in zeta potential,” Journal of Colloid and Interface Science, Vol. 258 No. 2, pp266-275, (SCI).
102	Yang, R.-J., Jeng, J.-C. and Wu, C.-H., (2003), “Computation of High Reynolds Number Flows by a Deterministic Vortex Method,” Journal of the Chinese Society of Mechanical Engineers, Vol. 24, No. 4, pp.407-416, (EI).
103	Chang, J.-G., Lin, C.-Y., Hwang, C.-C. and Yang, R.-J., (2003), “Optical Design and Analysis of LCD Backlight Units Using ASAP,” June, Optical Engineering Magazine, Vol. 82, pp. 75-89.
104	Lee, G.-B., Lin, C.-H., Fu, L.-M., Yang, R.-J., and Hwei, B.-H., (2003) “Fabrication and Application of Micro Flow Cytometers,” Instruments Today, Vol. 132, pp15-24.
105	Yang, R.-J., Fu, L.-M. and Lee, G.-B., (2002), “Variable-volume-injection methods using electrokinetic focusing on microfluidic chips,” Journal of Separation Science, Vol. 25, pp.996-1010, (SCI).
106	Yang, R.-J. and Luo, W.-J., (2002) “Flow bifurcations in a thin gap between two rotating spheres,” Theoretical and Computational Fluid Dynamics, Vol. 16, pp.115-131, (SCI).
107	Lin, J.-Y., Fu, L.-M. and Yang, R.-J., (2002) “Numerical Simulation of Electrokinetic Focusing in Microfluidic Chips,” Journal of Micromechanics and Microengineering, Vol. 12, pp.955-961, (SCI).
108	Fu, L.-M., Yang, R.-J., Lee, G.-B. and Liu, H.-H., (2002), “Electrokinetic Injection Techniques in Microfluidic Chips,” Analytical Chemistry, Vol. 74, No.19, pp.5084-5091, (SCI).
109	Fu, L.-M., Yang, R.-J. and Lee, G.-B., (2002), “Analysis of Geometry Effects on Band Spreading of Microchip Electrophoresis,” Electrophoresis, Vol.23, pp.602-612, (SCI).
110	Yang, R.-J., Fu, L.-M. and Hwang, C.-C., (2001), “Electroosmotic Entry Flow in a Microchannel,” Journal of Colloid and Interface Science, Vol. 244, pp173-179, (SCI).
111	Yang, R.-J., Fu, L.-M., and Lin, Y.-C., (2001), “Electroosmotic Flow in Microchannels,” Journal of Colloid and Interface Science, Vol. 239, pp98-105, (SCI).
112	Yang, R.-J. and Fu, L.-M., (2001),“Thermal and Flow Analysis of a Heated Electronic Component,” International Journal of Heat and Mass Transfer, Vol. 44, No. 12, pp2261-2275, (SCI).
113	Luo, W.-J. and Yang, R.-J., (2000), “Flow Bifurcation and Heat Transfer in a Spherical Gap,” International Journal of Heat and Mass Transfer, Vol. 43, pp.885-899, (SCI).
114	Yang, R.-J. and Luo, W.-J., (2000), “Predicting Multiple Solutions of a Spherical Taylor-Couette Flow by a Continuation Method,” Notes on Numerical Fluid Mechanics, Vol.74, pp257-267.
115	Chuang, L.-S, Chiou, J.-S., Fu, L.-M., Yang, R.-J. Chao, S.-Y. and Chou, J.-H., (1999), “The Mitigation of Erosion Phenomena Induced by Butterfly Valves and Elbows,” Journal of Taipower`s Engineering , Vol.614, pp.61-73.
116	Yang, R.-J. and Huang, Y.-G., (1999), “Simulation of High Reynolds Flow over a Flat Plate by a Deterministic Vortex Method,” Computational Fluid Dynamics JOURNAL, Vol.8, No.3, pp.392-398, (filed for SCI).
117	Yang R.-J., Jeng, Y.-R. and Fu, L.-M., (1999), “A Study on Eliminating Factorization and Linerization Errors,” Computational Fluid Dynamics JOURNAL, Vol. 7, No.4, pp.397-404, (filed for SCI).
118	Luo, W.-J. and Yang, R.-J., (1998), “Numerical Simulation of a Spherical Taylor-Couette Flow Bifurcation by a Continuation Method,” Lecture Notes in Physics, Vol.515, Springer-Verlag, pp195-200, U.S.A.
119	Yang, R.-J. and Ko, Y.-C., (1997), “Numerical Solution of Unsteady Loading and Temperature Redistribution Process in a Turbine Using a Hybrid Structured/Unstructured grid,”Numerical Methods in Laminar and Turbulent Flow, vol. 10, pp.871-880.
120	Yang, R.-J., Luo, W.-J., Wu, C.-T. and Chen, J.-L., (1997), “3-D Blade Flow Analysis of the Hsieh-Ho #1 Low Pressure Steam Turbine,” Journal of Taipower`s Engineering, Vol. 587, No. 7, pp.29-45.
121	Yang, R.-J., and Lou, W.-J., (1996), “Turbine blade heat transfer prediction in flow transition using k-omega, two-equation model,”AIAA Journal of Thermophysics and Heat Transfer, Vol. 10. No. 4, pp.613-620, (EI, SCI).
122	Yang, R.-J., (1996), “Assessment of turbulence and chemistry models for film-cooled nozzle flows,”AIAA Journal of Thermophysics and Heat Transfer, Vol. 10, No. 2, pp.284-289, (EI, SCI).
123	Yang, R.-J., (1996), “A numerical procedure for predicting multiple solutions of a spherical Taylor-Couette flow,”International Journal for Numerical Methods in Fluids, Vol. 22, No. 11, pp.1135-1147, (EI, SCI).
124	Lou, W.-J. and Yang, R.-J., (1995), “Numerical Study of Boundary Layer Transition and Heat Transfer in Turbines,” Transactions of the Aeronautical and Astronautical Society of the R.O.C., Vol. 27, No. 4, pp.289-296, (EI).
125	Yang, R.-J., (1994), “Multistage Turbine Rotor/Stator Unsteady Viscous Flow Interactions,” Journal of the Chinese Society of Mechanical Engineers, Vol.15, No.4, pp.325-335, (EI).
126	Yang, R.-J., (1994), “Hypersonic Fin Aerodynamics,” AIAA Journal of Spacecraft and Rockets, Vol.31, No. 2, pp.339-341, (EI, SCI).
127	Yang, R.-J., (1994), “Steady Motion of a Thread over a Rotating Roller,” ASME Journal of Applied Mechanics, Vol. 61, March, pp.16-22, (EI, SCI).
128	Yang, R.-J. and Lin, S.-J., (1994), “Numerical Solutions of 2-D Multistage Rotor/Stator Unsteady Flow Interactions,” AIAA Journal of Propulsion and Power, Vol.10, No.6, pp.876-883, U.S.A., (SCI, EI, SCI, IF= 0.493).
129	Yang, R.-J. and Yeung, W.-S., (1993), “ITERATIVE METHOD OF INTEGRAL RELATIONS SCHEME FOR WAKE FLOWS,” Communications in Numerical Methods in Engineering, Vol. 9, No. 6, pp.525-531, U.K., (EI, SCI).
130	Yang, R.-J., Chang, J. L. C. and Kwak, D., (1992), “Navier-Stokes Flow Simulation of the Space Shuttle Main Engine Hot Gas Manifold,” AIAA Journal of Spacecraft and Rocket, Vol. 29, No. 2, pp253-259. U.S.A., (EI, SCI).
131	Yang, R.-J., (1989), “Numerical Study of Spherical Taylor-Couette Flow,” in Advances in Fluid Dynamics, by W.F. Ballhaus, Jr. and M.Y. Hussaini, Springer-Verlag, pp264-274, U.S.A.
132	Yang, R.-J., (1988), “Numerical Simulation of Taylor Vortices in a Spherical gap,” Lecture Notes in Physics, Vol.323, Springer-Verlag, pp602-606, U.S.A.
133	Chang, J., Kwak, D. Rogers, S.E. and Yang, R.-J., (1988), “Numerical Simulation Methods of Incompressible Flows and an Application to the Space Shuttle Main Engine,” International Journal for Numerical Methods in Fluids, Vol.8, pp1241-1268, U.K., (EI, SCI).
134	Chang, J., Yang, R.-J. and Kwak, D., (1986), “A Full Navier-Stokes Simulation of Complex Internal Flows,” Lecture Notes in Physics, Vol. 264, Springer-Verlag, pp154-160, U.S.A.
135	Weinberg, B.C., Yang, R.-J., McDonald, H. and Shamroth, S.J., (1986), “Calculation of Two- and Three-Dimensional Transonic Cascade Flow Fields Using the Navier-Stokes Equations,” ASME Journal of Engineering for Gas Turbines and Power, Vol. 108, pp93-102, U.S.A, (EI, SCI).
136	Yang, R.-J. and Aung, W., (1985), “Equations and Coefficients for Turbulence Modeling,” in Natural Convection: Fundamental and Applications Edited by S. Kakac, W.Aung, and R.Viskanta, Hemisphere Publishing Corp, pp259-300, U.S.A.
137	Yang, R.-J. and Holt, M., (1984), “Boundary Layer Control by Means of Strong Injection,” ASME Journal of Applied Mechanics, Vol.51, pp27-34, U.S.A, (EI, SCI).
138	Yeung, W.-S. and Yang, R.-J., (1981), “Application of the Method of Integral Relations to the Calculation of Two-Dimensional Incompressible Turbulent Boundary Layer,” ASME Journal of Applied Mechanics, Vol. 48, pp701-706, U.S.A, (EI, SCI).
139	Lee, C.-Y., Lee, G.-B., Fu, L.-M., Lee, K.-H., and Yang, R.-J., (2004) “Electrokinetically Driven Active Micro-Mixers Utilizing Zeta Potential Variation Induced by Field Effect,” Journal of Micromechanics and Microengineering, Vol. 14, pp. 1390-1398. (SCI).

Conference papers

No.	Title
1	Numerical Solutions of Two-Dimensional Multi-Stage Rotor/Stator Unsteady Flow Interactions (NASA-CP-3078),Yang, R.-J. and Lin, S.-J.,NASA CFD Symposium on Aeropropulsion,U.S.A.,1990,pp127-142
2	A Navier-Stokes Simulation for the SSME HGM Including Racetrack,Yang, R.-J.,The 4th SSME Computational Fluid Dynamics Working Group Conference, NASA/MSFC,U.S.A.,1986,
3	A Navier-Stokes Flow Simulation of the Space Shuttle Main Engine Hot Gas Manifold,Yang, R.-J., Chang, J. and Kwak, D.,AIAA 25th Aerospace Sciences Meeting,U.S.A,1987,no. 87-0368
4	Navier-Stokes Simulation of SSME HPOTP 1st Stage Rotor-Stator Interaction,Yang, R.-J.,The 5th SSME Computational Fluid Dynamics Working Group Conference, NASA/MSFC,U.S.A,1987,
5	Numerical Simulation of Flow Path in the SSME Hot Gas Manifold,Yang, R.-J.,The 5th SSME Computational Fluid Dynamics Working Group Conference, NASA/MSFC,U.S.A,1987,
6	Numerical Simulation of Flow Path of Oxidizer Side Hot Gas Manifold of the Space Shuttle Main Engine,Lin, S.-J., Yang, R.-J., Chang, J. and Kwak, D.,AIAA 23th Propulsion Conference,U.S.A.,1987,no. 87-1800
7	Unsteady Aerodynamics of Rotor-Stator Interaction in a Turbine Stage,Yang, R.-J., Lin, S.-J. and Rai, M.M.,AIAA 26th Aerospace Sciences Meeting,U.S.A.,1988,no. 88-0360
8	The Aerothermodynamic Study of Two-Inch Rotating Sphere inside a Vapor Film,William, M. and Yang, R.-J.,The 6th SSME Computational Fluid Dynamics Working Group Conference, NASA/MSFC,U.S.A,1988,
9	Navier-Stokes Flow Simulations for HPFTP 1st Stage Turbine Using Rai's Multi-Blade Rotor-Stator Interaction Code,Lin, S.-J. and Yang, R.-J.,The 6th SSME Computational Fluid Dynamics Working Group Conference, NASA/MSFC,U.S.A.,1988,
10	Multi-Blade Navier-Stokes Solutions of Rotor-Stator Interaction in a Turbine Stage,Lin, S.-J. and Yang, R.-J.,AIAA 27th Aerospace Sciences Meeting,U.S.A.,1989,no. 89-0326
11	Multistage and Multiblade Navier-Stokes Flow Simulation of Rotor-Stator Interaction,Yang, R.-J. and Lin, S.-J.,The 7th SSME Computational Fluid Dynamics Working Group Conference, NASA/MSFC,U.S.A.,1989,
12	Viscous Unsteady Computation of Rotor/Stator Flows in the Multi-Stage Turbines,Lin, S.-J. and Yang, R.-J.,27th AIAA/SAE/ASME Joint Propulsion Conference,U.S.A.,1991,paper no. 91-24
13	Unsteady Navier-Stokes Simulation of Temperature Redistribution in a Multi-Stage Turbine,Yang, R.-J. and Lin, S.-J.,Proceedings of 4th International Symposium on CFD,U.S.A.,1991,pp1287-1292
14	Turbine Blade Heat Transfer Prediction in Flow Transition Using k-w Two-Equation Model,Yang ,R.-J.and Luo, W.-J.,32nd IAA/ASME/SAE/ASEE Joint Propulsion Conference,U.S.A,1996,No.96-2793
15	Numerical Solution of Unsteady Loading and Temperature Redistribution Process in a Turbine Using a Hybrid Structured/Unstructured Grid,Yang, R.-J. and Ko, Y.-C.,Proceedings of the Tenth International Conference on Numerical Methods in Laminar and Turbulent Flow,U.K.,1997,Vol. 10, pp.871
16	Numerical Simulation of a Spherical Taylor-Couette Flow Bifurcation by a Continuation Method,Luo, W.-J. and Yang, R.-J.,16th International Conference on Numerical Methods in Fluid Dynamics,France,1998,
17	Predicting Multiple Solutions of a Spherical Taylor-Couette Flow by a Continuation Method,Yang, R.-J. and Luo, W.-J.,ERCOFTAC and EUROMECH Colloquium 383, Continuation Methods in Fluid Dynamics,France,1998,
18	Simulation of High Reynolds Number Flows by a Deterministic Vortex Method,Yang, R.-J. Huang, Y.-G. and Jeng, C.-J.,Presented at 1999 ASME Fluids Engineering Conference,U.S.A.,1999,FEDSM99-6817
19	Study on Electrokinetic Flow in Microchannel,Yang, R.-J., Fu, L.-M. and Lin, Y.-C.,The American Chemistry Society Annual Meeting,USA,2000,
20	Flow Bifurcation in a Two-Sided Lid-Driven Cavity,Yang, R.-J., Luo, W.-J., Chuang, W.-S. and Lee, W.-J.,Presented at Second International Conference on Computational Fluid Dynamics,Australia,2002,
21	Dispersion Control in Micrfluidic Bio-Chips by Localized Zeta-Potential Variation,Yang, R.-J., Fu, L.-M. Lee, G.-B. and Chang, C.-C.,Presented at 2003 Material Research Society Spring Meeting,U.S.A.,2003,
22	MxN Micro Flow Switches Using Electrokinetic Forces,Lee, G.-B., Fu, L.-M., Yang, R.-J. and Pan, Y.-J.,Transducers 2003,USA,2003,
23	Novel Surface Modification Methods and Surface Property Analysis for Separation of DNA Bio-molecules Using Capillary Electrophoresis,Lin, C.-H., Fu, L.-M., Lee, K.-H., Yang, R.-J. and Lee, G.-B.,Micro-TAS 2003,USA,2003,
24	Micro Flow Cytometers Using Electrokinetic Forces with Integrated Optical Fibers for On-line Cell/Particle Counting and Sorting,Lee, G.-B., Fu, L.-M., Yang, R.-J. and Pan, Y.-J.,Micro-TAS 2003,USA,2003,
25	Electroosmotic Flows in Microfluidic Chips,Yang, R.-J., Fu, L.-M. and Lee, G.-B.,The 5th Asian CFD Conference,Korea,2003,
26	Novel Active Mixers in Silica-based Microchannels,Lee, C.-Y., Lee, G.-B., Lin, J.-L., Lee, K.-H., and Yang, R.-J.,Asia-Pacific Conference of Transducers and Micro-Nano Technology,Japan,2004,
27	A Novel Low Voltage-driven Control in Electrophoresis Microchips by Traveling Electric Field,Fu, L.-M., Tai, C.-H. and Yang, R.-J.,Asia-Pacific Conference of Transducers and Micro-Nano Technology (APCOT MNT),Japan,2004,
28	Numerical Simulation of Variable-Volume-Injection Techniques in Microfluidic Devices,Fu, L.-M., Lin, C.-H., Yang, R.-J. and Tai, C.-H.,Asia-Pacific Conference of Transducers and Micro-Nano Technology (APCOT MNT),Japan,2004,
29	A Novel Dispersion Control in Capillary Electrophoresis by Localized Zeta Potential Variation Using the Field Effect,Fu, L.-M., Lin, C.-H., Lee, C.-Y. and Yang, R.-J.,Micro-Total-Analysis-System,2004,
30	Enhancement of electrokinetically-driven flow mixing in 3-D microchannel using heterogeneous surfaces,Yang, R.-J. and Chang, C.-C.,ASME International Mechanical Engineering Congress and RD&D Expo,USA,2004,
31	Enhancement of Mixing for Electro-kinetically Driven Side Channel Type Micromixer,Wu, C.-H. and Yang, R.-J.,The 3rd International Conference on Microchannels and Minichannels (ICMM 2005), ASME,Canada,2005,
32	Time- and Frequency- Domain Analysis of Transient Electroosmotic Flow induced by a Sinusoidal AC Electric Field in a Microchannel,Luo, W.-J., Chen, J.-K. and Yang, R.-J.,Third International Conference on MICROCHANNELS AND MINICHANNELS, ASME,Canada,2005,
33	Electroosmotic Flow Driven by DC and AC Electric Field in Curved Microchannels,Chen J.-K. and Yang, R.-J.,The 16th International Symposium on Transport Phenomena,Czech Republic,2005,
34	Effect of Frequency on the Transient Electroosmotic Flow Induced by Sinusoidal AC Electric Field in Curved Micro-Tube,Chen J.-K., Luo, W.-J. and Yang, R.-J.,The Sixth Asian CFD Conference,Taiwan,2005,
35	Numerical Solutions of Incompressible Navier-Stokes Equations Using a Novel Segregated-Implicit Scheme,Kao, P.-H. and Yang, R.-J.,The Sixth Asian CFD Conference,Taiwan,2005,
36	Electroosmotic Flow Chaotic Mixing in 3-D Microchannels with Patterned Charged Surface,Chang, C.-C. and Yang, R.-J.,International Electrokinetics Conference,France,2006,
37	Two-dimensional symmetric / asymmetric hydrodynamic flow focusing in rectangular microchannels,Chang, C.-C., Huang, S.-B., Lee, G.-B. and Yang, R.-J.,10th International Conference on Flow Analysis,Portugal,2006,
38	Variable volume T-form electrokinetic injection technique for_Microfluidic chips,Wu, C.-H. and Yang, R.-J.,10th International Conference on Flow Analysis,Portugal,2006,
39	Size-controllable Flow Passage in a Microchannel,Yang, R.-J., Yang, S.-J. and Huang C.-H.,APS 59th Annual Meeting of the Division of Fluid Dynamics,USA,2006,
40	A Concept of Concentration Choice for Electric Double Layer Overlapped,Huang, K.-D. and Yang, R.-J.,APS 59th Annual Meeting of the Division of Fluid Dynamics,USA,2006,
41	Numerical and Experimental Investigation of Three-Dimensional Hydrodynamic Focusing in Polydimethylsiloxane (PDMS) Microchannels,Chang, C.-C. and Yang, R.-J.,NSTI Nanotech 2007,USA,2007,
42	Enhancement of Micro-flow Mixing Using DC Nonlinear Electrokinetic Vortices,Chen, J.-K. and Yang, R.-J.,NSTI Nanotech 2007,USA,2007,
43	Using Epoxy Resin to Fabricate a Master for Microfluidic Devices in Poly(dimethylsiloxane),Pan, Y.-J. and Yang, R.-J.,NSTI Nanotech 2007, Santa Clara,USA,2007,
44	Numerical Analysis of Thermal Wave Behavior by the CESE Method,Chou, Y. and Yang, R.-J.,APS 60th Annual Meeting of the Division of Fluid Dynamics,USA,2007,
45	Charged Species Transport and the Formation of Ionic Depletion/Enrichment Zone in the Junction between Micro- and Nano-channel,Huang, K.-D. and Yang, R.-J.,APS 60th Annual Meeting of the Division of Fluid Dynamics,USA,2007,
46	Chaotic Mixing Induced by Time-Wise Alternations of Electroosmotic Recirculating Rolls in Microchannels,Chang, C.-C. and Yang, R.-J.,ASME Micro/Nanoscale Heat Transfer International Conference (MNHT08),Taiwan,2008,
47	A Review on Electrokinetic Mixing in Microfluidic Systems (Invited),Yang, R.-J.,Zing Microfluidics and Nanofluidics Conference,Mexico,2008,
48	Effective Electrokinetic Mixing in a Microfluidic Device,Chang, C.-C. and Yang, R.-J.,7th International Symposium on Nano-Biomedical Engineering,Taiwan,2008,
49	Chaotic Mixing in an Electroosmotic Microchannel Flow Induced by Spatiotemporal Surface Charge Patterning,Chang, C.-C. and Yang, R.-J.,The 3rd International Symposium on Advanced Fluid/Solid Science and Technology in Experimental Mechanics,Taiwan,2008,
50	One-Dimensional Numerical Simulation to IEF in a Micro-channel with Variable Cross-section,Chou, Y. and Yang, R.-J.,The 3rd International Symposium on Advanced Fluid/Solid Science and Technology in Experimental Mechanics,Taiwan,2008,
51	Computational Aspects of Complex Propulsion Flow System (Invited Paper) (Invited Presentation in the 2nd National CFD Conference),Yang, R.-J.,Proceedings of the second Conference on Computational Fluid Dynamics-- The Chinese Aeronautical and Astronautical Society,Taiwan,1993,pp365-370
52	A Numerical Procedure For Predicting Multiple Solutions of a Spherical Taylor-Couette Flow,Yang, R.-J.,The 18th National Conference on Theoretical and Applied Mechanics,Taiwan,1994,pp.409-416
53	Investigation of Boundary Layer Transition and Heat Transfer in Turbines,Yang, R.-J., Luo, W.-J. and Liu,C.-S.,The 3rd National Thermal-Fluids Conference,Taiwan,1995,pp.413-420
54	Numerical Study of Boundary Layer Transition and Heat Transfer in Turbines,Luo, W.-J. and Yang, R. -J.,Proceedings of the 3th National Conference on CFD,Taiwan, R.O.C.,1995,pp.271-279
55	A Study on Fictitious Boundary Conditions for Predicting Multiple Solutions of the Navier-Stokes Equations,Yang, R.-J.,The 4th National Thermal-Fluids Conference,Taiwan,1996,pp.175-178
56	A Study on Eliminating Splitting and Lineazrization Errors,Yang, R.-J. and Jeng, Y.-J.,The 4th NSC Conference on Aerospace Engineering,1997,pp.II85-II89.
57	External Flow and Heat Transfer Simulation of a Heated Electronic Component,Fu, L.-M., and Yang, R.-J.,The Fourth National Conference on CFD,Taiwan, R.O.C.,1997,
58	The Numerical Simulation of Film Cooling,Wu, C.-T., Luo, W.-J., and Yang, R.-J.,The Fourth National Conference on CFD,Taiwan, R.O.C.,1997,
59	A Deterministic Vortex Method in Simulating Flow around an Impulsively Started Circular Cylinder,Jeng, C. J. and R.-J. Yang,The Fifth National Conference on CFD,Taiwan, R.O.C.,1998,
60	Spherical Taylor-Couette Flow Bifurcation and Heat Transfer,Luo, W.-J. and Yang, R.-J.,The 15th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,1998,
61	Reduction of Flow Cavitation in Butterfly Valve,Chuang, L.-S., Chiu, C.-J., Chou, J,-H. and Yang, R.-J.,The 15th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,1999,
62	Computational Study of a Spherical Taylor Vortex Flow,Chen R.-W. and Yang, R.-J.,The 16th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,1999,
63	Three-Dimensional Computation of Turbine Flows Using Multiple Domain,Chang, H.-C. and Yang, R.-J.,The 16th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,1999,
64	Simulation of Vortex Street Using Vortex Method,Wu, C.-S. and Yang, R.-J.,The 16th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,1999,
65	Molecular Dynamics Simulation of Piston-driven Shock Wave in a Shock Tube,Chou, Y.-P., Hwang, C.-C. and Yang, R.-J.,The 17th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,2000,
66	Flow Bifurcation and Transition in a Gap between Two-Rotating Spheres,Luo, W.-J. and Yang, R.-J.,Chinese Mechanics Annual Meeting,Taiwan, R.O.C.,2000,
67	Test of CE/SE Method,Tseng, T.-I. and Yang, R.-J.,The 17th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,2000,
68	Flow Bifurcations in an Enclosure between Two Moving Boundaries,Yang, R.-J., Luo, W.-J. and Chuang, W.-S.,The 3rd CFD Symposium Across the Strait,Taiwan, R.O.C.,2001,
69	Multiple Flow Solutions in a Two-Side Lead Driven Cavity,Chung, W.-S., Luo, W.-J. and Yang, R.-J.,The 8th National Conference on CFD,Taiwan, R.O.C.,2001,
70	Design and Analysis of Electrophoresis Microchannel,Fu, L.-M., Yang, R.-J. and Lee, G.-B.,The 8th National Conference on CFD,Taiwan, R.O.C.,2001,
71	Numerical Simulation of electrokinetic Focusing in Microfluidic Chips,Lin, J.-Y., Fu, L.-M. and Yang, R.-J.,The 9th national conference on computational fluid dynamics,Taiwan,2002,
72	The Stability and Heat Transfer in Two Lids Driven Cavity Flow,Yang, R.-J., Luo, W.-J., Lee, W.-J. and Chuang, W.-S.,The 9th national conference on computational fluid dynamics,Taiwan,2002,
73	The Influence of the Downstream Flow Condition on the Mach Stem Height in Steady Flows,Tseng, T.-I. and Yang, R.-J.,The 9th national conference on computational fluid dynamics,Taiwan,2002,
74	Simulation of Shock Wave Hysterisis Using CE/SE Method,Tseng, T.-I. and Yang, R.-J.,The 9th national conference on computational fluid dynamics,Taiwan,2002,
75	Wide Angle Beam Propagation Method for the Analysis of Nematic Liquid Crystal Structures in Two-Dimension,Lee, E.-W. and Yang, R.-J.,The 9th national conference on computational fluid dynamics,Taiwan,2002,
76	Dynamics of Fluid Particles in Micro Containers,Liu, E.-C. and Yang,R.-J.,The 9th national conference on computational fluid dynamics,Taiwan,2002,
77	A Novel Electrokinetically-driven Micro Flow Cytometer with Integrated Optical Waveguides for On-line Cell/Particle Detection,Lee, G.-B., Fu, L.-M., Lin, C.-H., Yang, R.-J., and Pan, Y.-J.,The 7th Nano/Micro system technology conference,Taiwan,2003,
78	Electroosmotic Flow and Heat Transfer in a Cavity,Huang, K.-D. and Yang, R.-J.,The 20th National Conference on Mechanical Engineering, CSME,Taiwan, R.O.C.,2003,
79	Microfabricated Electrokinetically-Driven Mixer by Localized Zeta Potential Variation,Lee, C.-Y., Fu, L.-M., Yang, R.-J., Chang, C.-C., Lee, G.-B.,The 27th Conference on Theoretical and Applied Mechanics,Taiwan,2003,
80	Computation of Shock Wave Diffraction over a half-diamond wedge,Yang, R.-J., Tseng, T.-I and Yeh, T.-J.,The 11th national conference on computational fluid dynamics,Taiwain,2004,
81	Enhancement of electrokinetic flow mixing in three dimensional microchannels using heterogeneous surface charge (Best Paper Award),Yang, R.-J. and Chang, C.-C.,The 11th National Conference on Computational Fluid Dynamics,Taiwan,2004,
82	A study on electrokinetic focusing and switching effects(The 1st Prize Winner of the Student Paper Contest in Thermal-Fluid-Energy Group),Chang, C.-C., Huang, S.-B., Lee, G.-B. and Yang, R.-J.,The 28th Conference on Theoretical and Applied Mechanics,Taiwan,2004,
83	Steady and Unsteady Solutions of Incompressible Navier-Stokes Equations Using Novel Segregated-Implicit Scheme,Kao, P.-H. and Yang, R.-J.,The 28th Conference on Theoretical and Applied Mechanics,Taiwan,2004,
84	Optimal Voltage for Enhancing Micromixing", , ,Wu, C.-H. and Yang, R.-J.,The 12th Symposium on Nano Device Technology (SNDT 2005),Taiwan, ROC.,2005,
85	Mixing Enhancement in Electro-kinetically Driven Side Channel Type Micromixers,Wu ,C.-H. and Yang, R.-J.,The 22nd National Conference on Mechanical Engineering (CSME 2005), CSME,Taiwan, ROC,2005,
86	The analysis of ionic transport in nanochannel under electric double layer overlapped,Huang, K.-D. and Yang, R.-J.,13th National CFD Conference,Taiwan,2006,
87	Analysis and Application of Combined Pressure-driven and Electrokineticaly- driven Flows in Microfluidic Channels,Yang, S.-J. and Yang, R.-J.,13th National CFD Conference,Taiwan,2006,
88	Investigations on Micro-reactor Flows Using the Lattice Boltzmann Method,Kao, P.-H., Re, T.-F. and Yang, R.-J.,13th National CFD Conference,Taiwan,2006,
89	Solving the thermal wave problem by the CESE Method,Chou, Y. and Yang, R.-J.,14th National CFD Conference,Taiwan,2007,
90	Lattice Boltzmann method for simulating the macroscopic and mesoscopic natural convection flows inside a rectangular cavity,Kao, P.-H., Chen, Y.-S. and Yang, R.-J.,14th National CFD Conference,Taiwan,2007,
91	Nanochannel-based Fluidic Concentrator over Ionic Depletion Effect,Huang, K.-D. and Yang, R.-J.,The 15th Symposium on Nano Device Technology (SNDT 2008),Taiwan, ROC.,2008,
92	Lattice Boltzmann Method for Simulating the Natural Convection Flows inside a Rectangular Cavity from Macroscopic Scale to Mesoscopic Scale,Hsiao, K. L. and Yang, R.-J.,15th National CFD Conference,Taiwan,2008,
93	Numerical Simulation to the Schrodinger Equation by the CESE Method,Lai, J. L. and Yang, R.-J., ,15th National CFD Conference,Taiwan,2008,

National Science Council Projects

No.

Name

Type

Year

Industry-university Projects

No.

Name

Type

Year

Other Projects

No.

Name

Type

Year

Books

No.	Books	Author	Year
1	Curved Microchannel Flow”, Encyclopedia Microfluidics and Nanofluidics, Vol.1, pp324-329, Springer Verlag.		2008
2	Active Mixer,” Encyclopedia Microfluidics and Nanofluidics, Vol. 1, pp33-38, Springer Verlag.		2008
3	Microfluidic Sample Manipulation,” Encyclopedia Microfluidics and Nanofluidics, Vol.2, pp1189-1194, Springer Verlag.		2008

Patents

No.	Patents	Owner	Year
1	A Multi-function Sample Injection System of Microfluidic Chip and Its Fabrication Method
2	A Variable Volume Injection Method Using Electrokinetic Focusing on Micrfluidic Chips.

Technology Transfer

No.

Name

Year

Honors

No.	Honors	Year
1	Rocketdyne's Engineering and Test Achievement Award (1985)	1985
2	Rockwell Special Achievement Award (1992)	1992
3	NASA Certificate of Space Act Tech Brief Award (1992)	1992
4	Researchships Award of the National Science Council (1993-2000)	1993
5	AIAA Associate Fellow (1997-)	1997
6	NCKU Distinguished Professor award(1st time 2003-2006)	2003
7	Best Paper Award-The 11th National CFD Conference (2004)	2004
8	NCKU Distinguished Professor award (2nd time 2006-2009)	2006
9	Distinguished Research Award- College of Engineering, National Cheng Kung University (2006)	2006
10	National Science Council Outstanding Research Award (2007)	2007
11	National Science Council Outstanding Research Award (2009-2012)	2009
12	NCKU Distinguished Professor award (3rd time 2009-2012)	2009
13	ASME Fellow (2010)	2010
14	CSME Fellow (2011)	2011
15	NCKU Chair Professor	2012
16	National Science Council Outstanding Research Award (2012-2015)	2012

Holding Academic Activities

No.

Name

Type

Year