Materials & Process Integration for MEMS (eBook, PDF)

Redaktion: Tay, Francis E. H.

• Format: PDF

Produktbeschreibung

The field of materials and process integration for MEMS research has an extensive past as well as a long and promising future. Researchers, academicians and engineers from around the world are increasingly devoting their efforts on the materials and process integration issues and opportunities in MEMS devices. These efforts are crucial to sustain the long-term growth of the MEMS field. The commercial MEMS community is heavily driven by the push for profitable and sustainable products. In the course of establishing high volume and low-cost production processes, the critical importance of materials properties, behaviors, reliability, reproducibility, and predictability, as well as process integration of compatible materials systems become apparent. Although standard IC fabrication steps, particularly lithographic techniques, are leveraged heavily in the creation of MEMS devices, additional customized and novel micromachining techniques are needed to develop sophisticated MEMS structures. One of the most common techniques is bulk micromachining, by which micromechanical structures are created by etching into the bulk of the substrates with either anisotropic etching with strong alk:ali solution or deep reactive-ion etching (DRIB). The second common technique is surface micromachining, by which planar microstructures are created by sequential deposition and etching of thin films on the surface of the substrate, followed by a fmal removal of sacrificial layers to release suspended structures. Other techniques include deep lithography and plating to create metal structures with high aspect ratios (LIGA), micro electrodischarge machining (J.

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Produktdetails

• Verlag: Springer US
• Seitenzahl: 299
• Erscheinungstermin: 29. Juni 2013
• Englisch
• ISBN-13: 9781475757910
• Artikelnr.: 44177729

Inhaltsangabe

1. Integration of Piezoelectric Pb (ZrxTi1?x)03 (PZT) Thin Films into Micromachined Sensors and Actuators.- 2. Porous Silicon as a Sacrificial Layer in Production of Silicon Diaphragms by Precision Grinding.- 3. GaAs Cantilever and Bridge Membrane-Like Structures Fully Compatible with AlGaAs/InGaAs/GaAs and InGaP/InGaAs/GaAs Based HFETs.- 4. Magnetron Sputtered TiNiCu Shape Memory Alloy Thin Film for MEMS Applications.- 5. Chemically Amplified Resist for Micromachining using X-Ray Lithography.- 6. Self-Assembled Monolayers (SAM) for Tunneling Sensors.- 7. Oxidation Process-Optimization for Large Area Silicon Fusion Bonded Devices and MEMS Structures.- 8. Silicon Nanomachining by Scanning Probe Lithography and Anisotropie Wet Etching.- 9. A Novel Bulk Micromachining Method in Gallium Arsenide.- 10. Deep X-Ray Lithography for MEMS-Photoelectron Exposure of the Upper and Bottom Resist Layers.- 11. Spray Coating Technology of Photoresist/Polymer for 3-D Patterning and Interconnect.- 12. Uncooled Infrared Image Sensor of Dielectric Bolometer Mode using Ferroelectric BST Thin Film Prepared by Metal Organic Decomposition.- 13. Tactical Grade MEMS Gyroscopes Fabricated by the SBM Process.- 14. Plasma Etching Techniques to Form High-Aspect-Ratio MEMS Structures.