Biomedical Engineering Reference
In-Depth Information
[61] R.J. Jackman, T.M. Floyd, R. Ghodssi, M.A. Schmidt, J.F. Jensen, Microfluidic systems with on-line UV
detection fabricated in photodefinable epoxy, J. Micromech. Microeng. 11 (2001) 263
e
269.
[62] B.E.J. Alderman, C.M. Mann, D.P. Steenson, J.M. Chamberlain, Microfabrication of channels using an
embedded mask in negative resist, J. Micromech. Microeng. 11 (2001) 703
e
705.
[63] L.J. Guerin, M. Bossel, M. Demierre, S. Calmes, Ph. Renaud, Simple and low cost fabrication of
embedded micro channels by using a new thick-film photoplastic, Proceedings of transducers '97, 9th
international conference on solid-state sensors and actuators, Chicago, IL, 16
e
19 June, 1997, pp.
1419
e
1421.
[64] Y.J. Chuang, F.G. Tseng, J.H. Cheng, W.K. Lin, A novel fabrication method of embedded micro-channels
by using SU-8 thick-film photoresists, Sens. Actuators A Phys. 103 (2003) 64
e
69.
[65] F.E.H. Tay, J.A. van Kan, F. Watt, W.O. Cheong, et al., A novel micro-machining method for the
fabrication of thick-film SU-8 embedded micro-channels, J. Micromech. Microeng. 11 (2001)
27
e
32.
[66] J. O'Brien, P.J. Hughes, M. Bunnet, B. O'Neill, J. Alderman, B. Lane, A. O'Riordan, C. O'Driscoll,
Advanced photoresist technologies for microsystems, J. Micromech. Microeng. 11 (2001) 353
e
358.
[67] W. Qu, C. Wenzel, A. Jahn, One-mask procedure for the fabrication of movable high-aspect-ratio 3D
microstructures, J. Micromech. Microeng. 8 (1998) 279
e
283.
[68] V. Con´d´ra, B. Le Goff, N. Fabre, Potentialities of a new positive photoresist for the realization of thick
moulds, J. Micromech. Microeng. 9 (1999) 173
175.
[69] B. Loechel, Thick-layer resists for surface micromachining, J. Micromech. Microeng. 10 (2000)
108
e
115.
[70] Y. Zhao, T. Cui, Fabrication of high-aspect-ratio polymer-based electrostatic comb drives using the hot
embossing technique, J. Micromech. Microeng. 13 (2003) 430
e
435.
[71] T.Q. Truong, N.T. Nguyen, A polymeric piezoelectric micropump based on lamination technology,
J. Micromech. Microeng. 14 (2004) 632
e
638.
[72] N.T. Nguyen, S.S. Ho, L.N. Low, A polymeric microgripper with integrated thermal actuators,
J. Micromech. Microeng. 14 (2004) 969
e
974.
[73] A.B. Frazier, M.G. Allen, Metallic microstructures fabricated using photosensitive polyimide electro-
plating molds, J. Microelectromech. Syst. 2 (2) (1993) 87
e
94.
[74] T. Ito, R. Sawada, E. Higurashi, T. Kiyokura, Fabrication of microstructure using fluorinated polyimide
and silicon-based positive photoresist, Microsystem Technologies 6 (2000) 165
e
168.
[75] T. Stieglitz, Flexible biomedical microdevices with double-sided electrode arrangements for neural
applications, Sens. Actuators A Phys. 90 (2001) 203
e
211.
[76] S. Metz, R. Holzer, P. Renaud, Polyimide-based microfluidic devices, Lab on a Chip 1 (1) (2001) 29
e
34.
[77] H.A. Reed, G.E. White, V. Rao, S.A.B. Allen, C.L. Henderson, P.A. Kohl, Fabrication of microchannels
using polycarbonates as sacrificial materials, J. Micromech. Microeng. 11 (2001) 733
e
737.
[78] D. Bhusari, H.A. Reed, M. Wedlake, A.M. Padovani, S.A.B. Allen, P.A. Kohl, Fabrication of air-channel
structures for microfluidic, microelectromechanical, and microelectronic applications, J. Micromech.
Microeng. 10 (2001) 400
e
408.
[79] V. Piotter, T. Hanemann, R. Ruprecht, J. Haupelt, Injection molding and related techniques for fabrication
of microstructures, Microsystem Technologies 4 (1997) 129
e
133.
[80] O. Larsson, O. Ohman, A. Billman, L. Lundbladh, C. Lindell, G. Palmskog, Silicon based replication
technology of 3D-microstructures by conventional cd-injection molding techniques, in: Proceedings of
transducers '97, 9th international conference on solid-state sensors and actuators, Chicago, IL, 16
e
19
e
June, 1997, pp. 1415
e
1418.
[81] M. Niggemann, W. Ehrfeld, L. Weber, R. Gunther, O. Sollbohmer, Miniaturized plastic micro plates for
applications in HTS, Microsystem Technologies 6 (1999) 48
e
53.
Search WWH ::
Custom Search