±è¹Îȸ
»ó¡À̹ÌÁö
·Î±×ÀΠ Ä«Æäã±â ÁÖ¼Ò : http://cafe.hanbat.ac.kr/cafe/20131006/
ºí·Î±×°ü¸®ÀÚ : ±è¹Îȸ°ü¸®ÀÚ¸ðµå À̵¿
 
ÇÁ·ÎÇÊÀ̹ÌÁö
Category
Àü´Þ 2024.3 ´ÙÀ½´Þ
ÀÏ
¿ù
È­
¼ö
¸ñ
±Ý
Åä
      1 2
3 4 5 6 7 8 9
10 11 12 13 14 15 16
17 18 19 20 21 22 23
24 25 26 27 28 29 30
31
 
¿¬±¸¾÷Àû


  ¿¬±¸¾÷Àû 

 

 

 

 

Publications (Peer-reviewed journals)

 

[1]     S.M. Cho, M.-H. Kim, C.-M. Keum, J.H. Na, and S.-D. Lee, "Integration of polymer sollar cells by sacrificial layer-assisted MoOX patterning for high voltage source", Japanese Journal of Applied Physics, accepted.

[2]     S.-M. Cho, H.-L. Park, M.-H. Kim, S.-U. Kim, and S.-D. Lee, "Micropatterning of TiO2 Nanoparticles for Integration of Solid-State Dye-Sensitized Solar Cells", Nanoscale Research Letters, accepted.

[3]     M.-H. Kim, G. J. Lee, C.-M. Keum, and S.-D. Lee, "Concept of rewritable organic ferroelectric random access memory in two lateral transistors-in-one cell architecture", Semiconductor Science and Technology, 29, 025004 (2014).

[4]     C.-M. Keum, J.-H. Bae, M.-H. Kim, H.-L. Park, J.E. Anthony, and S.-D. Lee, "Guided spreading and drying of 6,13-bis(triisopropylsilylethynyl)-pentacene solution on an inkjet-printed polymer insulator for the field-effect mobility enhancement", Applied Physics Letters, 102, 193307 (2013).

[5]     M.-H. Kim, C.-M. Keum, and S.-D. Lee, "Tailoring and patterning of dielectric interfaces for the development of advanced organic field-effect transistors", Liquid Crystals, 10.1080/02678292.2013.814813 (2013).

[6]     M.-H. Kim, G.J. Lee, C.-M. Keum, and S.-D. Lee, "Voltage-readable nonvolatile memory cell with programmable ferroelectric multistates in organic inverter configuration", Organic Electronics, 14, 1231 (2013).

[7]     S.M. Cho, J.-H. Bae, E. Jang, M.-H. Kim, C. Lee, and S.-D. Lee, "Solvent effect of the fibrillar morphology on the power conversion efficiency of a polymer photovoltaic cell in a diffusive heterojunction", Semiconductor Science and Technology, 27, 125018 (2012).

[8]     M.-H. Kim, S.-P. Noh, C.-M. Keum, and S.-D. Lee, "Bias Voltage Effect on Electrical Properties of N-type Polymeric Field Effect Transistors with Dual Gate Electrodes", Molecular Crystals and Liquid Crystals, 567, 34 (2012).

[9]     M.-H. Kim, S.-P. Noh, C.-M. Keum, J.-H. Bae, and S.-D. Lee, "Control of interfacial charges of organic semiconductor by a surface polarized layer for high noise-margin inverters with full-swing capability", Organic Electronics, 13, 2365 (2012).

[10]  C.-M. Keum, J.-H. Bae, M.-H. Kim, W. Choi, and S.-D. Lee, "Solution-processed low leakage organic field-effect transistors with self-pattern registration based on patterned dielectric barrier", Organic Electronics, 13, 778 (2012).

[11]  S.-J. Kim, M.-H. Kim, M. C. Suh, Y.-G. Mo, S. W. Chang, and S.-D. Lee, "Integration of solution-processed polymer thin-film transistors for reflective liquid crystal applications", Journal of Information Display, 12, 205 (2011).

[12]  W. Choi, M.-H. Kim, and S.-D. Lee, "Chemically Compatible Sacrificial Layer-Assisted Lift-Off Patterning Method for Fabrication of Organic Light-Emitting Displays ", Japanese Journal of Applied Physics, 50, 080219 (2011).

[13]  M.-H. Kim, J.-H. Bae, W.-H. Kim, C.-M. Keum, and S.-D. Lee, "Chevron-type gate configuration of short channel top-contact organic thin-film transistors for large saturated drain current", Journal of Physics D: Applied Physics, 44, 145106 (2011).

[14]  W.-H. Kim, J.-H. Bae, M.-H. Kim, and S.-D. Lee, "Surface modification of a ferroelectric polymer insulator for low-voltage readable nonvolatile memory in an organic field-effect transistor", Journal of Applied Physics, 109, 024508 (2011).

[15]  C.-M. Keum, J.-H. Bae, W.-H. Kim, M.-H. Kim, and S.-D. Lee, "Effect of thermo-gradient assisted solvent evaporation on enhancement of electrical properties of 6,13-bis(triisopropylsilylethynyl)-pentacene thin-film transistors", Journal of the Korean Physical Society, 58, 1479 (2011).

[16]  J. Park, J.-H. Bae, W.-H. Kim, M.-H. Kim, C.-M. Keum, S.-D. Lee, and J. S. Choi, "Effects of interfacial charge depletion in organic thin-film transistors with polymeric dielectrics on electrical stability", Materials, 3, 3614 (2010).

[17]  W. Choi, M.-H. Kim, Yu-Jin Na, and Sin-Doo Lee, "Complementary transfer-assisted patterning of high-resolution heterogeneous elements on plastic substrates for flexible electronics", Organic Electronics, 11, 2026 (2010).

[18]  J.-H. Bae, J. Park, C.-M. Keum, W.-H. Kim, M.-H. Kim, S.-O. Kim, S. K. Kwon, and S.-D. Lee, "Thermal annealing effect on the crack development and the stability of 6,13-bis(triisopropylsilyl ethynyl)-pentacene field-effect transistors with a solution-processed polymer insulator", Organic Electronics, 11, 784 (2010).

 

 

 

Patents

[1] Method of manufacturing high resolution organic thin film pattern: South Korea patent, 10-1108162, Jan. 13, 2012. (registered)

[2] Method for fabricating network electrodes using self-assembly of particles: South Korea patent, 10-2012-0140102, Dec. 05, 2012. (patent pending)

[3] Method of manufacturing high resolution organic thin film: E.U. patent, EP 10252276.0, Jan. 07, 2011. (patent pending)

[4] Method of manufacturing high resolution organic thin film: China patent, 20110006544.5, Jan. 05, 2011. (patent pending)

[5] Method of manufacturing high resolution organic thin film: Taiwan patent, 100101020, Jan. 01, 2011. (patent pending)

[6] Method of manufacturing high resolution organic thin film: U.S.A. patent, 12/979260, Dec. 27, 2010. (patent pending)

[7] Method of manufacturing high resolution organic thin film pattern: Japan patent, 2010-249571, Nov. 08, 2010. (patent pending)

ÁÖ¼Ò
 
Àüü´ñ±ÛÀüü´ñ±Û
³»°¡¾´±Û³»°¡¾´±Û
·Î±×ÀÎ ÈÄ ÀÌ¿ë°¡´É ÇÕ´Ï´Ù.
³»°¡¾´±Û¸µÅ©»çÀÌÆ®
³»¸®±â