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市場調査レポート
ミクロ流体工学 - パート1:インクジェット、ドラッグ・デリバリ、 燃料電池-
Microfluidics Part I: Inkjet, Drug Delivery, Fuel Cells, and More
| 発行 |
In-Stat |
| 出版日 |
2004年02月 |
商品コード |
18082 |
| ページ情報 |
英文 35 Pages |
| 価格 |
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当商品の販売は、2011年07月19日を持ちまして終了しました。
Abstract
The field of microfluidics, which deals with the moving of minute amounts of fluids (in the realm of pico and even nanoliters) through simple or complex arrays of channels, nozzles, pumps, valves, and needles, is making a move beyond inkjet printing. New means of drug delivery, propellant-free aerosols, and fuel cells for consumer electronics have all been developed, with commercial product set to be launched over the course of the next two years. The timely report takes a look at the microfluidics segment (excluding lab-on-a-chip) and the companies, devices, and applications that will benefit most from the years of research in this field. Forecasts of unit shipments and revenues are provided through 2008.
Table of Contents
Executive Summary
Methodology
- Defining MEMS
- Defining Microfluidics
The Products
- Channels
- Needles
- Nozzles
- Pumps
- Valves
- Other
Markets and Applications
- Automotive
- Communications
- Computing
- Consumer
- Industrial
- Commercial and Industrial Inkjet Printing
- Commercial Printing
- Retail Point-of-Sale (POS) printers
- Wide (Large) Format Printing
- Other Commercial Printing
- Industrial Printing
- Semiconductor Production
- Pharmaceutical/Medical Device Production
- Industrial Production
- Medical
The Forecast
The Companies
List of Tables
- Table 1. Products, Companies, and Applications
- Table 2. Sales of Microfluidics (Excluding Lab-on-a-Chip), 2003-2008 (Units and US $ in Millions)
- Table 3. Microfluidics Fabrication Partners
List of Figures
- Figure 1. Forecast Revenues for Microfluidics Devices (Excluding Lab-on-a-Chip), 2003-2008 (US $ in Billions)
- Figure 2. Casio's Micro-Reactor
- Figure 3. Neah Power Systems' Fuel Cell Architecture
- Figure 4. LLNL's Fuel Cell
- Figure 5. Velocys' Fuel Cell
- Figure 6. ALZA's Macroflux Patch
- Figure 7. Debiotech's Microject Needles
- Figure 8. EndoBionics' Micro-Syringe
- Figure 9. SpectRx's Patch
- Figure 10. Advion Biosciences' ESI Chip
- Figure 11. Aradigm's AERx Strip
- Figure 12. STEAG microParts' Uniblock
- Figure 13. Canon's MicroFine Droplet Technology
- Figure 14. Epson's SEAJet Printhead
- Figure 15. Hewlett Packard's Inkjet Printhead
- Figure 16. Lexmark's Inkjet Printhead
- Figure 17. Olivetti's Inkjet Printhead
- Figure 18. Debiotech's ChronoJet Pump
- Figure 19. Eksigent Technology's EKPump
- Figure 20. HNP Mikrosysteme's mzr Pump
- Figure 21. Honeywell's Mesopump
- Figure 22. Alumina Micro's MicroSTAQ
- Figure 23. Redwood Microsystems' MEMS-Flow 100:1 MFC
- Figure 24. TiNi Alloy's Valve
- Figure 25. ISSYS' Micro Density Meter
- Figure 26. MicroCHIPS' Micro-Reservoir Chip
- Figure 27. NanoInk's DPN Pen
- Figure 28. How Thermal Inkjet Printheads Work
- Figure 29. The Respimat System
- Figure 30. Ehrfeld Mikrotechnik's LH 1000
- Figure 31. Sales of Microfluidics (Excluding Lab-on-a-Chip), 2003-2008 (Units and US $ in Millions)
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