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Application of carbon nanotubes to the cathode ray tube-electron gun
| Vacuum. vol. 68, pp. 79-85, 2003. 10. |
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The vacuum packaging of a flat lamp using thermally grown carbon nano tubes
| Vacuum, vol 74, pp. 105-111, 2004. |
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Manipulation of cells using an ultrasonic pressure field
| Ultrasound in Medicine and Biology, vol. 31, 2005. 12. |
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Fabrication and characteristics of field emitter using carbon nanotubes directly grown by thermal chemical vapor deposition
| Thin Solid Film, vol. 436, pp. 298-302, 2003 |
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Lateral growth of aligned mutilwalled carbon nanotubes under electric field
| Solid State Communications, vol. 126, pp. 305-308, 2003. 05. |
41 |
Uncooled thermopile infrared detector with chromium absorption layer
| Sensors and Actuators, vol. A95, pp. 24-28, 2001. 12 |
40 |
Glass-to-glass electrostatic bonding with intermediate amorphous silicon film for vacuum packaging of microeletronics and its application
| Sensors and Actuators, vol. A89, pp. 43-48, 2001. 03. |
39 |
A noble suspended type thin film resonator(STFR) using the SOI technology
| Sensors and Actuators, vol. A89, pp. 255-258, 2001. 04 |
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Flexible polysilicon sensor array modules using “etch-release” packaging scheme
| Sensors and Actuators, vol. A111, pp. 135-141, 2004 |
37 |
A simple approach in fabricating chemical sensor using laterally grown multi-walled carbon nanotubes
| Sensor and Actuators, vol. B99, pp. 118-122, 2004. |
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Air-gap type film bulk acoustic resonator using flexible thin substrate
| Sensor and Actuators, vol. A117, pp. 62-70, 2005. |
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Simple approach to fabricate microgated nanotubes emitter with a sidewall protector
| Physica B, vol.344, pp. 9-12, 2003. |
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Suppression of leakage current via formation of a sidewall protector in the microgated carbon nanotube emitter
| Nanotechnology, vol. 14, pp. 497-500, 2003. |
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Fabrication of suspended thin film resonator for application of RF bandpass filter
| Microelectromics Reliablility, vol. 44, pp. 237-243, 2004. 12. |
32 |
Improvement of porous polysilicon nano-structured emitter for vacuum packaged devices
| Materials Science, vol. 16, pp. 125-130, 2005. 01. |
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Using the Chorions of Fertilized Zebrafish Eggs as a Biomaterial for the Attachment and Differentiation of Mouse Stem Cells
| Langmuir, vol. 21, pp. 7615-7620, 2005. 08. |
30 |
Thin AC-PDP Vacuum In-line Sealing Using Direct-Joint Packaging Method
| Journal of the electrochemical society, vol. 151, pp. H128-H131, 2004. 12. |
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Enhancement of Efficiency for White-Organic Light-Emitting Diode with a Thin Electron-Blocking Layer
| Journal of Electrochemical Society, vol. 153, pp. H111-H114, 2005. 10. |
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Improvement of field emission from printed carbon nanotubes by a critical bias field
| Journal of Applied Physics, vol. 98, 2005. 06. |
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Microtunneling sensors for vacuum level evaluation of field emission display devices
| J.Vacuum Science and Technology, vol. B19, pp. 542-545, 2001. 3/4. |