References

Aronson RB (2004) Micromanufacturing is growing, Manufacturing Engineering 132:4 Bean KE (1978) Anisotrophic etching of silicon, IEEE Trans. Electron Devices 25:11851192

Chyr I, Steckl AJ (1999) Focused ion beam micromilling of GaN and related substrate materials (Sapphire, SiC, and Si). American Vacuum Society Crocombe RA (2004) MEMS technology moves process spectroscopy into a new dimension, Spectroscopy Europe. pp 16-19 Danel JS, Delapierre G (1991) Quartz: A material for microdevices, J. Micromechanics and

Microengineering 1:187-198 deSilva AP, Nathan DM (2004) Molecular scale logic gates, Chemistry, A European

Journal 10:574-586 Dresselhaus M, Dresselhaus G (1998) Carbon nanotubes. Physics web/world Friedrich CR, Vasile MJ (1996) Development of the micromilling process for high-aspect-ratio microstructures, Journal of Microelectromechanical Systems 5:33-38 French PJ and Sarro PM (1998) Surface versus bulk micromachining: The contest for suitable applications, J. Micromechanics and Microengineering 8:45-53 Gregory TA, Maluf NI, Peterson KE (1998) Micromachining of silicon. IEEE Proceedings, 86

Han J, Jaffe R, Globus A, Deardorff G (2004) Molecular dynamics simulations of carbon nanotube based gears, NASA Ames Research Center. available at www.nas.nasa.gov Harasima F, Tomizuka M (1996) Mechatronics; What is it, why and how, IEEE

Transaction on Mechatronics 1:1-7 http://www.aspe.net/about/index.html

http://www.microe.rit.edu/research/nanotechnology/dnasensor.htm

James M, Bustilo M, Roger TH, Muller RS (1998) Surface micromachining for microelectromechanical systems. IEEE Proceedings, 86, p 8 Keppeler CR (2003) Micromilling for mold fabrication. LMA Technical Reports,

University of California at Berkeley, pp 99-101 Kern W (1967) Chemical etching of silicon, Germanium and Gallium Phosphate, RCA Review 39:278-307

Lambin PH, Fonseca A, Vigneron JP, Nagy JB, Lucas AA (1995) Structural and electronic properties of bent carbon nanotubes, Chem. Phys. Lett. p 245 Latg'e A, Muniz RB and Grimm D (2004) Carbon nanotube structures: Y-junctions and nanorings, Brazilian Journal of Physics 34:2B Mahalik NP (ed) (2003) Fieldbus Technology. Springer Verlag, ISSN 3540401830, Germany

Mahalik NP (2004) Mechatronics: Principle, concepts and application, McGraw-Hill

International Edition (Higher Education), ISSN 007-048374-4 Petersen KE (1982) Silicon as a mechanical material, IEEE Proceedings, 70, pp 420-57 Ray H, Anvar AZ, Walt AH, (2002) Carbonnanotubes; The route toward applications, Science 297

Regan MT, Rimai DS (2004) Electrophotography: A micromanufacturing technology,

NexPress Solutions LLC, available at www.nano.neu.edu Research Trend (2002) Fully electronic DNA sensor arrays, Corporate Research, USA Steger RB, Neurath A, Messner S, Sandmaier H, Zengerle R, Koltay P (2004) A highly parallel nanoliter dispensing system fabricated by high-speed micromilling of polymers. Technical Report, University of Freiburg and HSG-IMIT, Germany Tönshoff HK, Momma C, Ostendorf A, Nolte A, Kamlage G (2000) Microdrilling of metals with ultra-short laser pulses, Journal of Laser Applications 12:23-27

Was this article helpful?

0 0
Brain Blaster

Brain Blaster

Have you ever been envious of people who seem to have no end of clever ideas, who are able to think quickly in any situation, or who seem to have flawless memories? Could it be that they're just born smarter or quicker than the rest of us? Or are there some secrets that they might know that we don't?

Get My Free Ebook


Post a comment