Programmable digital memory devices based on nanoscale thin films of a thermally dimensionally stable polyimide
暂无分享,去创建一个
Dong Min Kim | Samdae Park | Kyungtae Kim | Wonsang Kwon | M. Ree | Guey‐Sheng Liou | Taek Joon Lee | S. G. Hahm | Cha-Wen Chang | Jinchul Kim | Taek Joon Lee | Taek Joon Lee
[1] Dong Min Kim,et al. Novel Rewritable, Non‐volatile Memory Devices Based on Thermally and Dimensionally Stable Polyimide Thin Films , 2008 .
[2] O. Kim,et al. Effect of the Electrode Material on the Electrical-Switching Characteristics of Nonvolatile Memory Devices Based on Poly($o$-anthranilic acid) Thin Films , 2008, IEEE Electron Device Letters.
[3] Sang-Hyun Hong,et al. High‐Performance Programmable Memory Devices Based on Hyperbranched Copper Phthalocyanine Polymer Thin Films , 2008 .
[4] Y. Jung,et al. UV-driven switching of chain orientation and liquid crystal alignment in nanoscale thin films of a novel polyimide bearing stilbene moieties in the backbone. , 2008, The journal of physical chemistry. B.
[5] T. Shin,et al. Thermal imidization and structural evolution of thin films of poly(4,4'-oxydiphenylene p-pyromellitamic diethyl ester). , 2007, The journal of physical chemistry. B.
[6] Sang-Hyun Hong,et al. Novel Digital Nonvolatile Memory Devices Based on Semiconducting Polymer Thin Films , 2007 .
[7] O. Kim,et al. Bipolar resistive switching in a single layer memory device based on a conjugated copolymer , 2007 .
[8] O. Kim,et al. Novel electrical properties of nanoscale thin films of a semiconducting polymer: quantitative current-sensing AFM analysis. , 2007, Langmuir : the ACS journal of surfaces and colloids.
[9] J. C. Scott,et al. Nonvolatile Memory Elements Based on Organic Materials , 2007 .
[10] M. Ree,et al. Photo‐ and Rubbing‐Alignable Brush Polyimides Bearing Three Different Chromophores , 2007 .
[11] Seung-Woo Lee,et al. Rubbed Thin Films of Well-defined Brush Polyimides for Flat-Panel Liquid Crystal Displays: Surface Morphology, Molecular Orientation, and Liquid Crystal Alignability , 2006 .
[12] D. Kwong,et al. Electrical switching and transport in the Si/organic monolayer/Au and Si/organic bilayer/Al devices , 2006 .
[13] J. Jung,et al. Unusual Alignment of Liquid Crystals on Rubbed Films of Polyimides with Fluorenyl Side Groups , 2006 .
[14] J. Ouyang,et al. Electrical Switching and Bistability in Organic/Polymeric Thin Films and Memory Devices , 2006 .
[15] M. Ree. High performance polyimides for applications in microelectronics and flat panel displays , 2006 .
[16] T. Shin,et al. In situ infrared spectroscopy study on imidization reaction and imidization-induced refractive index and thickness variations in microscale thin films of a poly(amic ester). , 2005, Langmuir.
[17] René A. J. Janssen,et al. Electrically Rewritable Memory Cells from Poly(3‐hexylthiophene) Schottky Diodes , 2005 .
[18] J. Jung,et al. Role of the n-alkyl end of bristles in governing liquid crystal alignment at rubbed films of brush polymer rods , 2005 .
[19] Yan Song,et al. Non‐Volatile Polymer Memory Device Based on a Novel Copolymer of N‐Vinylcarbazole and Eu‐Complexed Vinylbenzoate , 2005 .
[20] S. Hsiao,et al. Novel Aromatic Poly(Amine-Imide)s Bearing A Pendent Triphenylamine Group: Synthesis, Thermal, Photophysical, Electrochemical, and Electrochromic Characteristics , 2005 .
[21] Seungwoon Lee,et al. A Soluble Photoreactive Polyimide Bearing the Coumarin Chromophore in the Side Group: Photoreaction, Photoinduced Molecular Reorientation, and Liquid-Crystal Alignability in Thin Films , 2003 .
[22] J. Jung,et al. Sequence of Rubbing-Induced Molecular Segmental Reorientations in the Nanoscale Film Surface of a Brush Polymer Rod. , 2003, The journal of physical chemistry. B.
[23] J. Jung,et al. Sequence of the rubbing-induced reorientations of polymer chain segments in nanofilms of a well-defined brush polyimide with a fully rodlike backbone as determined by polarized FTIR spectroscopy and two-dimensional correlation analysis , 2003 .
[24] Seungwoon Lee,et al. New Clues to the Factors Governing the Perpendicular Alignment of Liquid Crystals on Rubbed Polystyrene Film Surfaces , 2003 .
[25] Kevin L. Jensen,et al. Electron emission theory and its application: Fowler–Nordheim equation and beyond , 2003 .
[26] Seungwoon Lee,et al. Photoreactions and photoinduced molecular orientations of films of a photoreactive polyimide and their alignment of liquid crystals , 2003 .
[27] J. Jung,et al. Rubbing-Induced Surface Morphology and Polymer Segmental Reorientations of a Model Brush Polyimide and Interactions with Liquid Crystals at the Surface , 2003 .
[28] J. Jung,et al. Surface Morphology, Molecular Reorientation, and Liquid Crystal Alignment Properties of Rubbed Nanofilms of a Well-Defined Brush Polyimide with a Fully Rodlike Backbone , 2002 .
[29] Stephen R. Forrest,et al. Direct observation of structural changes in organic light emitting devices during degradation , 2001 .
[30] Jason D. Monnell,et al. Conductance Switching in Single Molecules Through Conformational Changes , 2001, Science.
[31] Y. Shen,et al. Rubbing-induced molecular reorientation on an alignment surface of an aromatic polyimide containing cyanobiphenyl side chains. , 2001, Journal of the American Chemical Society.
[32] Dongge Ma,et al. Organic Reversible Switching Devices for Memory Applications , 2000 .
[33] S. I. Kim,et al. Synthesis of new aromatic polyimides with various side chains containing a biphenyl mesogen unit and their abilities to control liquid‐crystal alignments on the rubbed surface , 1999 .
[34] Park,et al. Synthesis and Characterization of A New Blue-Light-Emitting Polyimide. , 1998, Macromolecules.
[35] Donal D. C. Bradley,et al. Space-charge limited conduction with traps in poly(phenylene vinylene) light emitting diodes , 1997 .
[36] S. Pyo,et al. Investigation of Glass Transition Behaviors in Poly(amic acid) Precursors of Semiflexible Polyimides by Oscillating Differential Scanning Calorimetry , 1997 .
[37] M. Ree,et al. Structure, chain orientation, and properties in thin films of aromatic polyimides with various chain rigidities , 1997 .
[38] Kang-Wook Lee,et al. Microscopic Molecular Reorientation of Alignment Layer Polymer Surfaces Induced by Rubbing and Its Effects on LC Pretilt Angles , 1996 .
[39] C. Ha,et al. Rodlike/flexible polyimide composite films prepared from soluble poly(amic diethyl ester) precursors: Miscibility, structure, and properties , 1995 .
[40] J. A. Logan,et al. Near-surface alignment of polymers in rubbed films , 1995, Nature.
[41] E. Kay,et al. Dielectric breakdown of polymer films containing metal clusters , 1988 .
[42] J. S. Patel,et al. The mechanism of polymer alignment of liquid‐crystal materials , 1987 .
[43] J. A. Meyers,et al. Switching in organic polymer films , 1978 .
[44] Peter Mark,et al. Space‐Charge‐Limited Currents in Organic Crystals , 1962 .
[45] J. Frenkel,et al. On Pre-Breakdown Phenomena in Insulators and Electronic Semi-Conductors , 1938 .