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36.
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K Chun, et al., "Highly conductive, printable and stretchable composite films of carbon nanotubes and silver", Nature Nanotechnology, 5, 853, (2010).  |
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35.
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S. Jang, et al., "Flexible, transparent single-walled carbon nanotube transistors with graphene electrodes", Nanotechnology, 21, 425201, (2010). |
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34.
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Beom Joon Kim, et al., "High-Performance Flexible Graphene Field Effect Transistors with Ion Gel Gate Dielectrics", Nano Letters, 10, 3464, (2010). |
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33.
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Kyungyea Park, et al., "Stretchable, Transparent Zinc Oxide Thin Film Transistor", Advanced Functional Materials, 20, 3577, (2010). |
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32.
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S. C. Lee, et al., "Numerical Analysis on the Mechanical Properties of Organic Thin Film Transistor",Modern Physics Letters B, 24, 1471, (2010). |
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31.
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Jonghyun Rho, et al., "PbZrxTi1-xO3 Ferroelectric Thin Film Capacitors for Flexible Nonvolatile Memory Applications", IEEE Electron Device Letters., 31, 1017, (2010). |
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30.
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Sukang Bae, et al., "Roll-to-roll production of 30-inch graphene film for transparent electrodes", Nat. Nanotech., 5, 574, (2010) (selected as cover). |
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29.
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Hasan M, et al., "Low Temperature Aluminum Oxide Gate Dielectric on Plastic Film for Flexible Device Application", Japanese Journal of Applied Physics, 49, 05EA01, (2010). |
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28.
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Seoung-Ki Lee, et al., "Mechanically flexible thin film transistors and logic gates on plastic substrates by use of single-crystal silicon wires from bulk wafers.", Applied Physics Letters, 96, 173501, (2010) (selected as cover). |
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27.
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Youngbin Lee, et al., “Wafer Scale Synthesis and Transfer of graphene films”, Nano Letters, 10, 490-493, (2010). |
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26.
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Hasan M, et al., "Hydrogen Defect Passivation of Silicon Transistor on Plastic for High Performance Flexible Device Application", Electrochem. Solid St., 13(3), H80-H82, (2010). |
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25.
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Kim H.S, et al., "Self-Assembled Nanodielectrics and Silicon Nanomembranes for Low Voltage, Flexible Transistors and Logic Gates on Plastic Substrates", Applied Physics Letters, 95, 183544, (2009). |
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24.
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Lee S.I., et al., “ Effect of Homopolymer Molecular Weight on Order-Order Transition in Block Copolymer and Homopolymer Blends”, J. Nanosci. Nanotechnol. 9, 7499, (2009). |
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23.
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Kim J.E., et al., "Interfacial Change on Morphological Transitions in Styrene-Isoprene Diblock Copolymer", Euro. Polym. J, 45, 2450, (2009). |
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22.
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Kim T.-H., et al., “Kinetically Controlled, Adhesiveless Transfer Printing Using Microstructured Stamps”,Applied Physics Letters, 94, 113502, (2009). |
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21.
|
Kim K.S., et al., "Large-Scale Pattern Growth of Graphene Films for Stretchable Transparent Electrodes",Nature, 457, 706, (2009) |
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20.
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Park S. I., et al., "Theoretical and Experimental Studies of Bending of Inorganic Electronic Materials on Plastic Substrates ", Advanced Functional Materials, 18, 2673, (2008). |
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19.
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Ahn J.-H., et al., "Defect Tolerance in Transistors that Use Semiconductor Nanomaterials and Ultrathin Dielectrics", Advanced Functional Materials, 18, 2535, (2008). (selected as inside cover) |
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18.
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Kim D.H., et al., “CMOS integrated Circuits Incorporating Monolithically Integrated Stretchable Wavy Interconnects", Applied Physics Letters, 93, 044102, (2008). |
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17.
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Baca A.J., et al., “Semiconductor Wires and Ribbons for High Performance Flexible Electronics”, Angew. Chem. Int. Ed., 47, 5524, (2008). |
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