A single crystal silicon 3 dimensional processing technique with applications in large displacement electrostatic actuation

2002 ◽  
Vol 8 (1) ◽  
pp. 67-72 ◽  
Author(s):  
K. Subramanian ◽  
X. T. Huang ◽  
N. C. MacDonald
Keyword(s):  
Single Crystal ◽  
Single Crystal Silicon ◽  
Processing Technique ◽  
Electrostatic Actuation ◽  
Large Displacement ◽  
Crystal Silicon ◽  
3 Dimensional ◽  
Dimensional Processing

Large-displacement microactuators in deep reactive ion-etched single-crystal silicon

2001 ◽  
Author(s):  
Gabriel L. Smith ◽  
John M. Maloney ◽  
Lawrence Fan ◽  
Don L. DeVoe
Keyword(s):  
Single Crystal ◽  
Single Crystal Silicon ◽  
Large Displacement ◽  
Crystal Silicon

Microfabrication Process for XYZ Stage-Needle Assembly for Cellular Delivery and Surgery

2011 ◽  
Vol 700 ◽  
pp. 195-198
Author(s):  
Arunav S. Banerjee ◽  
Richard Blaikie ◽  
Wen Hui Wang
Keyword(s):  
Single Crystal ◽  
Single Crystal Silicon ◽  
Electrostatic Actuation ◽  
Cellular Delivery ◽  
Device Design ◽  
Crystal Silicon ◽  
Process Flow ◽  
Preliminary Results ◽  
Ongoing Work ◽  
Working Principle

In this paper, we present our ongoing work on developing a microfabricated XYZ stage-needle arrayed single crystal silicon (SCS) structure for cellular delivery and surgery. We discuss the device design and working principle based on electrostatic actuation. We also briefly discuss our microfabrication process flow and show some preliminary results of fabricating arrays of microneedles that are 250 µm long and 5 µm at the tip diameter.

Analysis of Silicon-On-Insulator Structures Formed By Oxygen Ion Implantation

1985 ◽  
Vol 43 ◽  
pp. 300-301
Author(s):  
N. Lewis ◽  
E. L. Hall ◽  
A. Mogro-Campero ◽  
R. P. Love
Keyword(s):  
Ion Implantation ◽  
Single Crystal ◽  
Single Crystal Silicon ◽  
Silicon Layer ◽  
Device Fabrication ◽  
Silicon On Insulator ◽  
High Dose ◽  
Crystal Silicon ◽  
Oxygen Ion ◽  
Oxygen Ion Implantation

The formation of buried oxide structures in single crystal silicon by high-dose oxygen ion implantation has received considerable attention recently for applications in advanced electronic device fabrication. This process is performed in a vacuum, and under the proper implantation conditions results in a silicon-on-insulator (SOI) structure with a top single crystal silicon layer on an amorphous silicon dioxide layer. The top Si layer has the same orientation as the silicon substrate. The quality of the outermost portion of the Si top layer is important in device fabrication since it either can be used directly to build devices, or epitaxial Si may be grown on this layer. Therefore, careful characterization of the results of the ion implantation process is essential.

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