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RESEARCH AREAS
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CURRENT RESEARCH INTERESTS: |
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We are exploring nanoelectronics
technologies based on engineered carbon nanotubes (CNTs), graphene layers and
functionalized nanowires: a)
CNT and graphene nanostructures for quantum dot-based FET and SET for
nanoelectronics, field
emission, energy harvesting and sensing; b) High-throughput voltage-applied
nanolithography (VAN) process for graphene; c) Nanoscale bimorph
actuators and associated nanoscale
measurement techniques for re-configurable arrayed-nanostructures for
antennas and biomedical nanorobots; and d) Functionalized magnetic nanowires
for biomedical applications. |
PREVIOUS RESEARCH PROJECTS
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Cu nanotube fabrication (Collaboration: U. Idaho) |
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Magnetic nanowire assembly (Collaboration: UC
Riverside) |
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Deformable mirror (Collaboration: JPL/Penn State/TRS
Technologies) |
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Microvalve
(Collaboration: JPL/ |
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Linear microactuator (Collaboration:
JPL) |
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Electroactive polymer (Collaboration: NASA LaRC/JPL) |
RESEARCH COLLABORATION
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Strauf, Fisher, Wang, Choi, Search, Liang, Besser, Manoochehri, Shi
(Stevens); Choi (U. Idaho); Jiang (TRS); Getty, Li (NASA/GSFC); Yee
(NASA/JPL); Huang (U. Arkansas); Lee (KAIST); Myung (UC Riverside); Su
(NASA/LaRC); Wick (Sandia National Lab); Khodadadi (Auburn);
Trolier-McKinstry (PSU); Fink (Caltech) |
Prof. E. H. Yang, Ph.D,
Stevens Institute of Technology ½ºÆ¼ºì½º °ø´ë ±â°è°øÇаú ºÎ±³¼ö,
°øÇÐ¹Ú»ç ¾çÀÇÇõ Nanotechnology, NEMS, MEMS, Adaptive Optics, CNT,
Nanoelectronics, Drug Delivery, Nanowire, Nanodisc, Microactuator, Microvalve,
Electrodeposition, Large Aperture, Space Applications