[1] Wei-Chih Wang, M. Afromowitz, B. Hannaford, "Technique for mechanical measurement using optical scattering from a micro-pipette", IEEE Trans. Biomedical Eng., Vol. 40, 3, p298-304,1994
[2] Wei-Chih Wang, S. Yee, P. Reinhall, "Optical viscosity sensor using forward light scattering", Sensor & Actuator B 24-25, p753-755, 1995
[3] Wei-Chih Wang, P. Reinhall, S. Yee, "Fluid viscosity measurement using forward light scattering [submerged optical fibre probe]", Measurement Science and Technology, 10 (4), 316-22,1999
[4] Wei-Chih Wang, Mark Fauver, Joe N. Ho, Eric J. Seibel, Per G. Reinhall, “Micromachined optical waveguide cantilever as a resonant optical scanner,” Sensors and Actuators: A., 102, pp.165-175, 2002.
[5] Wei-Chih Wang, Joe Ho, Per Reinhall, “Double-sided micromachining process for silicon cantilever using a parallel capacitively coupled plasma, “Journal of Microlithography, Microfabrication, and Microsystems, Vol.4, 1, p.013010-1 to 6 (2005)
[6] Wei-Chih Wang, William Ledoux, Bruce Sangeorzan, Per Reinhall, “A shear and plantar pressure sensor based on fiber-optic bend loss,” Journal of Rehabilitation Research and Development, vol.42, N. 3, p.315-326, 2005.
[7] Wei-Ching Chuang, Chi-Ting Ho, and Wei-Chih Wang, “Fabrication of high-resolution periodical structure using a replication process,” Optics Express, Vol. 13 Issue 18 P 6685-6692 (September 2005)
[8] Wei-Ching Chuang, Chi-Ting Ho, Yi-Ru, Lian, Ching_Kong Chao, Ryue-Fang, Shyu, and Wei-Chih Wang, “ Transducing mechanical forces using a polymer optical grating sensor,” Material Science Forum, Vols. 505-507, p91-96, 2006
[9]Wei-Chih Wang, Chi-Ting ho, Yi-Ru Lian, and Wei-Ching Chuang, “Transducing mechanical force by use of a diffraction grating sensor,” Applied Optics, Vol.45, 9, p1894-1897, 2006
[10]Yu-Cheng Lin, Wei-Ching Chuang, Chien-Jang Wu, and Wei-Chih Wang, “A compact-size D lens collimator for fiber coupling,” Journal of Optoelectronics and Advanced Materials, Vol. 9, No. 8, P. 2371-2375, 2007.
[11]Chu-Yu Huang, Wei-Chih Wang, Wen-Jong Wu, William Ledoux, “Composite fiberoptic distributive shear/pressure sensor,” IEEE Sensors Journal , Vol. 7, No. 11, p.1554-1565, 2007.
[12]Reynold Panergo, Cheng-Sheng Huang, Choa-Shih Liu, Per Reinhall, Wei-Chih Wang, ” Resonant polymeric optical waveguide cantilever integrated for image acquisition,” Journal of Lightwave technology, Vol. 25, No. 3, pp. 850-860, March, 2007
[13]Wei-Chih Wang, Chu-yu, Hunag, William Ledoux, Per Reinhall, “Developments of a Microfabricated optical bend loss sensor for distributive pressure measurement,” IEEE Trans. Biomedical Eng., Vol. 55 No.2, p.614-625, 2008.
[14]Wei-Chih Wang, Per Reinhall “Scanning Polymeric Waveguide Design of a 2D display system,” IEEE Journal of Display Technology, Vol 4, No.1, pp.28-38, 2008
[15]Cheng-Sheng Huang, Wei-Chih Wang, “Fabrication of a flexible polymeric rib waveguide with self align couplers system,” Journal of vacuum science and technology B, Vol.26, No.1, p.l-13-18, 2008.
[16]Cheng-Sheng Huang, Wei-Chih Wang,” Large core single mode rib SU8 waveguide using solvent assisted microcontact molding,” Applied Optics, Vol. 47, Issue 25, pp. 4540-4547, 2008
[17] Joe Ho, Wei-Chih Wang, “Diamagnetic levitating rotor design: suspension and stability study”, Journal of Magnetism and Magnetic Materials, accepted, December, 2008.
[18]Alexander .I. Fedorchenko, Ivo Stachiv, Joe Ho, Anbang Wang, Wei-Chih Wang,” On the forced vibration of the fiber partially immersed in fluid,” Sensors and Actuators A: Physical Volume 147, Issue 2, p. 498-503, 2008
[19]A.I. Fedorchenko, I. Stachiv, A.- B. Wang and W. - C. Wang, “ Fundamental Frequencies of Mechanical Systems with N -Piecewise Constant,” Journal of Sound and Vibration, 317 (2008) pp. 490–495
[20] Yan-Min Kuo, Huei-Jeng Lin, Chao-Nan Wang , Wei-Chih Wang , Cheng-Ling, Chang,” Study the Interaction of Two Acoustical Fields and One FRP Structure with FEM-BEM Coupling Analysis,” Journal of Reinforced Plastics and Composites, Vol. 28, No. 17, pp. 2083-2096, 2009.
[21] Joe Ho, Wei-Chih Wang, “Electric Generator Using a Triangular Shape Diamagnetic Levitating Rotor System,” Review of Scientific Instruments, accepted, Rev. Sci. Instrum. 80, 024702 (2009)
[22] Cheng-Sheng Huang, Yue-Bun Pun, Per G. Reinhall, Wei-Chih Wang, “Fabrication of a flexible rib waveguide with Bragg grating filter,” Journal of Optical Society of America B, Vol. 26, No.6, pp.1256-62, 2009
[23] David Linders, Wei-Chih Wang, David Nuckley, “Designing an optical bendloss sensor for clinical force measurement,” J. Med. Devices, Vol. 3 No. 2, pp. 027522, 2009.
[24] Wei-Chih Wang, “flexible polymer based foot size distributive pressure/shear sensor,” J. Med. Devices, Vol. 3 No. 2, pp. 027541, 2009.
[25] Wei-Chih Wang, Sum Lee, Alex Jen, per Reinahll and David Nuckley, ”Development of an electro-optic scanner for potential endoscope application,” J. Med. Devices, Vol. 3, No.2, pp. 027522, 2009
[26] Wei-Chih Wang, Alex Jen, “Electro-Optic Polymer Prism Beam Deflector,“ Journal of Optical Engineering, accepted, 4811, pp.114601-1 to 6, 2009.
[27] Cheng-Sheng Huang, Wei-Chih Wang, “SU-8 rib waveguide Bragg grating filter using
composite stamp and solvent-assisted microcontact molding technique,” Journal of Micro/Nanolithography, MEMS, and MOEMS, Vol. 9, No. 2, 2010
[28] Chu-Yu Huang, Wei-Chih Wang, “A compact liquid crystal based Fourier transform spectrometer,” Journal of Optomectronics, Vol. 4, No. 2, pp. 157-176, 2010.
[29] Shrey Kahnna, Joe Ho, Jonathan Irwen, Wei-Chih Wang,” Diamagnetically Levitating Three Phase Motor with Optical Feedback Control,” Journal of Optomechantronics,
Vol. 4, No. 4, 424-448, 2010.
[30] Wei-Chih Wang, Chi-Leung Tsui “2-D fiberoptic display system,” Journal of Optical Engineering, Vol. 49, No. 9, 097401-1 to 8, 2010
[31] Wei-Shun Hua, Wen-Jong Wu, Wei-Chih Wang,” 2-D fully integrated aerosol based PZT actuated optical scanner,’ Journal of Intelligent Material Systems and Structures, accepted, 2010
1. W. S.
Hua, W. C. Wang, “Development of a ferromagnetic polymeric metal
detector system,” The 18th SPIE Symposium on SPIE Smart Structures
and Materials & Nondestructive Evaluation and Health Monitoring, San
Diego, CA, March 6-10, 2011.
2. W. C. Wang, T. Hsiu, “Development of a prototype self-configuring
building block,” The 18th SPIE Symposium on SPIE Smart Structures
and Materials & Nondestructive Evaluation and Health Monitoring, San
Diego, CA, March 6-10, 2011.
3. W. C. Wang, A. Berendzen, W. S. Hua, “Fiberoptic microphone using
a polymeric cavity,” The 18th SPIE Symposium on SPIE Smart
Structures and Materials & Nondestructive Evaluation and Health
Monitoring, San Diego, CA, March 6-10, 2011.
4. W. C. Wang, J. Vu, “An improved control algorithm for an optical
feedback reference tracking diamgnetically levitating motor system,”
The 18th SPIE Symposium on SPIE Smart Structures and Materials &
Nondestructive Evaluation and Health Monitoring, San Diego, CA,
March 6-10, 2011.
5. W. Soetanto, Q. Nyung, W. Cui, W. C. Wang, “A footsize fiber
optic plantar pressure/shear sensor,” The 18th SPIE Symposium on
SPIE Smart Structures and Materials & Nondestructive Evaluation and
Health Monitoring, San Diego, CA, March 6-10, 2011.
6. W. C. Wang, W. S. Hua, W. J. Wu, “Development of a polymer based
fiberoptic magnetostrictive metal dector system,” International
Symposium on Optomechatronic Technologies, Toronto, CA, October
24-27, 2010.
7. S. Khanna, J. Ho, W. C. Wang, “Optical encoder feedback system
for levitating three phase rotor system,” International Symposium on
Optomechatronic Technologies, Toronto, CA, October 24-27, 2010.
8. C. L. Tsui, W. C. Wang, “2-D mechanically resonating fiberoptic
scanning display system,” International Symposium on Optomechatronic
Technologies, Toronto, CA, October 24-27, 2010.
9. W. S. Hua, J.Hooks, W. J. Wu, W. C. Wang, “Development of a novel
polymeric fiber-optic magnetostrictive metal detector,” The 17th
SPIE Nondestructive Evaluation (NDE) Health Monitoring and
Diagnostics, San Diego, CA, March 7-10, 2010, SSN10-82.
10. S. Khanna, J. Ho, W. C. Wang, “Optical encoder feedback system
for levitating three phase rotor system,” The 17th SPIE NDE Health
Monitoring and Diagnostics, San Diego, CA, March 7-10, 2010,
SSN10-84.
11. C. L. Chang, W. C. Wang, “Reliability of PEDOT: PSS strain
gauge,” The 17th SPIE NDE Health Monitoring and Diagnostics, San
Diego, CA, March 7-10, 2010.
12. J. H. Ho, A. Perez, W. C. Wang, “Development of a polymeric
capacitive 3-D tactile sensor,” The 17th SPIE NDE Health Monitoring
and Diagnostics, San Diego, CA, March 7-10, 2010, SSN10-86.
13. W. S. Hua, W. J. Wu, W. C. Wang, “Polymeric fiber-optic
magnetostrictive sensor,” The 20th International Conference on
Adaptive Structures and Technologies, Hong Kong, October 15-18,
2009.
14. W. S. Hua, C. L. Tsui, W. Soetaw, W. J. Wu, W. C. Wang, “A 2-D
Microdisplay using an integrated microresonanting waveguide scanning
system,” The 20th International Conference on Adaptive Structures
and Technologies, Hong Kong, October 15-18, 2009.
15. C. L. Chang, W. C. Wang, “Flexible PEDOT-PSS strain gauge,” The
20th International Conference on Adaptive Structures and
Technologies, Hong Kong, October 15-18, 2009.
16. D. Linders, D. Nuckley, W. C. Wang, “Clinical glove sensor,”
Design of Medical Device Conference, Minneapolis, MN, April 13-15,
2009.
17. W. C. Wang, “Flexible polymer based foot size distributive
pressure shear sensor,” Design of Medical Device Conference,
Minneapolis, MN, April 13-15, 2009.
18. W. C. Wang , “Development of an eletro-optic endoscope,” Design
of Medical Device Conference, Minneapolis, MN, April 13-15, 2009.
19. G. W. Chou, C. S. Liu, W. C. Wang, “Design of an offset
multilayered optical fiber sensor,” Proceedings of the 16th National
Conference on Science and Technology of National Defense, Taiwan,
November, 2008.
20. C. L. Chang, J. Peyroux, A. Perez, C. L. Tsui, W. C. Wang,
“Optical viscosity sensor,” The 16th SPIE NDE Health Monitoring and
Diagnostics, San Diego, CA, March 15-20, 2009.
21. D. Linders, D. Nuckley, W. C. Wang, “Designing an optical
bendloss sensor for clinical measurement,” The 16th SPIE NDE Health
Monitoring and Diagnostics, San Diego, CA, March 15-20, 2009,
SS09-SSN10-93.
22. J. Ho, W. C. Wang, “Generating EMF by using a triangular
diamagnetic levitating rotor,” The 16th SPIE NDE Health Monitoring
and Diagnostics, San Diego, CA, March 15-20, 2009, SS09-SSN10-92.
23. C. S. Huang, W. C. Wang, “Inverted rib waveguide with Bragg
grating using solvent assisted micromolding technique,” The 16th
SPIE NDE Health Monitoring and Diagnostics, San Diego, CA, March
15-20, 2009, SS09-SSN06-23.
24. H. J. Wang, B. Polishak, C. S. Huang, J. Luo, A. K. Y. Jen, W.
C. Wang, “Electro-optic polymer prism beam deflector,” The 21st
Annual Meeting of the IEEE Lasers & Electro-Optics Society, Newport
Beach, CA, November 9-13, 2008, p. 579-580.
25. C. L. Chang, A. Perez, W. C. Wang, “Fiberoptic bend loss
viscometer,” The 21st Annual Meeting of the IEEE Lasers &
Electro-Optics Society, Newport Beach, CA, November 9-13, 2008,
p.111-112.
26. C. S. Huang, W. C. Wang, “Fabrication of Bragg grating on rib
waveguide using solvent assisted microcontact molding,” The 21st
Annual Meeting of the IEEE Lasers & Electro-Optics Society, Newport
Beach, CA, November 9-13, 2008, p.638-639.
27. W. S. Hua, W. J. Wu, W. C. Wang, “Development of a novel
polymeric waveguide and micro actuator for micro scanning system,”
The 19th International Conference on Adaptive Structures and
Technologies, Ascona, Switzerland, October 6-9, 2008.
28. D. J. Nuckley, D. R. Linders, W. C. Wang, “Development of a
fiber-optic force sensing glove to provide clinical biomechanics
measurements,” North American Congress on Biomechanics, Ann Arbor,
MI, August 5-9, 2008 (Abstract was runner up for the “Clinical
Biomechanics Award” which recognizes outstanding new biomechanics
research targeting a contemporary clinical problem).
29. A. I. Fedorchenko, I. Stachiv, W. C. Wang, A. B. Wang, “On the
vibration of mechanical systems with piecewise linear properties,”
India Institute of Science Centenary- International Conference on
Advances in Mechanical Engineering, Bangalore, India, July 2-4,
2008.
30. G. W. Chou, C. S. Liu, W. C. Wang, “Design of an offset
multilayered optical fiber sensor,” Proceedings of the 16th National
Conference on Science and Technology of National Defense, Taiwan,
November, 2007, p. 39-48.
31. W. C. Wang, W. S. Hua, W. J. Wu, “Fiberoptic magnetostriction
sensor,” The 15th SPIE NDE Health Monitoring and Diagnostics, San
Diego, CA, March 9-13, 2008, SPIE 6935-46.
32. W. C. Wang, C. L. Tsui, “Fiberoptic display system,” The 15th
SPIE NDE Health Monitoring and Diagnostics, San Diego, CA, March
9-13, 2008, SPIE 6931-22.
33. A. I. Fedorchenko, I. Starchiv, J. Ho, W. C. Wang, A. Wang,
“Viscosity sensor based on the partially immersed fiber vibrations,”
The 15th SPIE NDE Health Monitoring and Diagnostics, San Diego, CA,
March 9-13, 2008, SPIE 6935-67
34. C. L. Chang, A. Perez, W. C. Wang, “Fiberoptic bendloss
viscosity sensor,” The 15th SPIE NDE Health Monitoring and
Diagnostics, San Diego, CA, March 9-13, 2008, SPIE 6935-49.
35. G. W. Chou, C. S. Liu, P. Reinhall, W. C. Wang, “An offset
multi-layered optic sensor for shear and pressure measurement,” The
15th SPIE NDE Health Monitoring and Diagnostics, San Diego, CA,
March 9-13, 2008, SPIE 6935-77.
36. C. S. Liu, X. Liang, W. C. Wang, “Composite fiber-optic sensor
for shear and plantar pressure measurement,” The 14th SPIE NDE
Health Monitoring and Diagnostics, San Diego, CA, March 18-22, 2007,
SPIE 6532, p. 65431k-1 to 10.
37. W. C. Wang, P. Reinhall, “Optical and mechanical
characterization of microfabricated optical bend loss sensor for
distributive pressure measurement,” The 14th SPIE NDE Health
Monitoring and Diagnostics, San Diego, CA, March 18-22, 2007, SPIE
6532, p. 653217-1 to 6.
38. W. C. Wang, P. Reinhall, “Viscosity measurement using intrinsic
fiberoptic polarimetric sensor,” The 14th SPIE NDE Health Monitoring
and Diagnostics, San Diego, CA, March 18-22, 2007, SPIE 6532,
65321P-1 to 11.
39. J. Ho, W. C. Wang,” Exploration of possibility of levitating
magnets using a non-vertical configuration of suspending magnets,”
Progress in Electromagnetic Research Symposium, Tokyo, Japan, August
2-5, 2006.
40. J. Ho, W. C. Wang. “Static stability and plate spacing for
diamagnetic levitating magnets,” Progress in Electromagnetics
Research Symposium, Tokyo, Japan, August 2-5, 2006.
41. W. C. Chuang, C. T. Ho, R. F. Shyu and W. C. Wang, “A new
replication method to fabricate polymer waveguide,” The 11th SPIE
NDE Health Monitoring and Diagnostics, San Diego, CA, February 26 -
March 2, 2006, SPIE 6177.
42. W. C. Wang, C. Y. Huang, P. Reinhall, “A wireless composite
optical bend loss sensor for pressure and shear measurement,” The
11th SPIE NDE Health Monitoring and Diagnostics, San Diego, CA,
February 26 - March 2, 2006, SPIE6177.
43. C. Takahshi, H. J. Wang, W. S. Hua, P. Reinhall, W. C. Wang,
“Polymeric waveguide design of 2D display system ,” The 11th SPIE
NDE Health Monitoring and Diagnostics, San Diego, CA, February 26 -
March 2, 2006, SPIE6177.
44. W. C. Wang, J. Ho, P. Reinhall, “Mathematical model for the
dynamics of an optical fiber viscometer,” The 11th SPIE NDE Health
Monitoring and Diagnostics, San Diego, CA, February 26 - March 2,
2006, SPIE6277.
45. W. C. Wang, Y. R. Lian, C. T. Ho, C. K. Chao and W. C. Chuang,
“A new novel means of transducing mechanical shear and tensile
stress using a polymer optical grating sensor,” Progress in
Electromagnetics Research Symposium, Hangzhou, China, August 22-26,
2005, p. 92-95.
46. J. Ho, W. C. Wang, “Levitated motor using diamagnetic
materials,” Progress in Electromagnetics Research Symposium,
Hangzhou, China, August 22-26, 2005, p. 89-91.
47. R. Panergo, C. S. Liu, B. Estroff, W. C. Wang, “Polymeric
waveguide design of a 2D scanner,” The 10th SPIE NDE Health
Monitoring and Diagnostics, San Diego, CA, March 6-10, 2005, SPIE
5768, p. 450-460.
48. C. Y. Huang, C. S. Liu, R. Panergo C. S. Huang, W. C. Wang,
“Developments of a force image algorithm for micromachined optical
bend loss sensor,” The 10th SPIE NDE Health Monitoring and
Diagnostics, San Diego, CA, March 6-10, 2005, SPIE 5768, p38-43.
49. R. Panergo, W. C. Wang, W. Ledoux, B. Sangeorzan, P. Reinhall,
“A flexible micromachined optical sensor for simultaneous
measurement of pressure and shear force distribution on feet,”
University of Washington Biomechanics Symposium, Seattle, WA, May,
2003.
50. W. C. Wang, R. Panergo, “Design and test of a microfabricated
SU-8 optical scanner,” The 9th SPIE NDE Health Monitoring and
Diagnostics, San Diego, CA, March 15-17, 2004, SPIE 5394, p.
280-287.
51. W. C. Wang, R. Panergo, W. Ledoux, B. Sangeorzan, P. Reinhall,
“A PDMS based distributive shear/pressure sensor,” International
Polymer Fiber Conference, 2003, p.68-71.
52. W. C. Wang, R. Panergo, K. Touloei, P. Reinhall, “Development of
a microfabricated scanning endoscope using SU-8 based optical
waveguide,” International Polymer Fiber Conference, 2003, SPIE 5047,
p.98-101.
53. W. C. Wang, R. Panergo, C. Galvanin, W. Ledoux, B. Sangeorzan,
P. Reinhall, “A flexible micromachined optical sensor for
simultaneous measurement of pressure and shear distribution on
foot,” The 8th SPIE NDE Health Monitoring and Diagnostics, San
Diego, CA, March 15-17, 2003, SPIE 5047, p. 275-285.
54. W. C. Wang, R. Panergo, P. Reinhall, “Development of a
microfabricated scanning endoscope using SU-8 based optical
waveguide,” The 8th SPIE NDE Health Monitoring and Diagnostics, San
Diego, CA, March 15-17, 2003, SPIE 5047, p. 305-313.
55. W. C. Wang, J. Ho, P. Reinhall, “Deep reactive ion etching of
silicon using an aluminum etching mask,” The 4th International
Conference on Advanced Semiconductor Devices and Microsystems, Oct
12-14, 2002, p. 31-34.
56. W. C. Wang, J. Ho, P. Reinhall, “Deep reactive ion etching of
silicon using an aluminum etching mask,” Proceedings of SPIE,
Seattle, WA, July 7-10, 2002, SPIE 4876, p. 633-640.
57. W. C. Wang, J. Ho, P. Reinhall, “Development of an optical
waveguide cantilever scanner,” Proceedings of SPIE, Seattle, WA,
July 7-10, 2002, SPIE 4876, p.72-83.
58. W. C. Wang, J. Dee, W. Ledoux, B. Sangeorzan, P. Reinhall,
“Development of a directional sensitive pressure and shear sensor,”
Proceedings of SPIE, Seattle, WA, July 7-10, 2002, SPIE 4702, p.
212-220.
59. X. Zhu, E. Tran, W. C. Wang, E. S. Kim, “Micromachined
acoustic-wave liquid ejector,” Solid-State Sensor and Actuator
Workshop, Hilton Head Island, SC, June 2-6,1996.
60. W. C. Wang, P. Reinhall, S. Yee, “Fluid viscosity and mass flow
measurement using forward light scattering,” Proceedings of SPIE,
San Diego, CA, July 10-22, 1995, SPIE2574, p. 146-151.
61. W. C. Wang, S. Yee, P. Reinhall, “Optical viscosity sensor using
forward light scattering,” Sensor and Actuator Proceedings for the
5th International Meeting on Chemical Sensors Rome, Italy, July
11-14, 1994.