Ultra-low misorientation angle in small-molecule semiconductor/polyethylene oxide blends for organic thin film transistors

[1]  S. Palchoudhury,et al.  Modifying Electrical and Magnetic Properties of Single-Walled Carbon Nanotubes by Decorating with Iron Oxide Nanoparticles. , 2020, Journal of nanoscience and nanotechnology.

[2]  Sheng Bi,et al.  Nanoparticles for organic electronics applications , 2020, Materials Research Express.

[3]  Chengming Jiang,et al.  Highly enhanced performance of integrated piezo photo-transistor with dual inverted OLED gate and nanowire array channel , 2019 .

[4]  Liyun Ding,et al.  Synthesis of hydrophilic P(VDF-TrFE) chloride sensitive polymer films for fluorescence sensing , 2019, Journal of Polymer Research.

[5]  Sheng Bi,et al.  Small-molecule additives for organic thin film transistors , 2019, Journal of Materials Science: Materials in Electronics.

[6]  A. Hirao,et al.  Synthesis of novel block polymers with unusual block sequences by methodology combining living anionic polymerization and designed linking chemistry , 2019, Journal of Polymer Research.

[7]  Sheng Bi,et al.  Polyacrylate polymer assisted crystallization: Improved charge transport and performance consistency for solution-processable small-molecule semiconductor based organic thin film transistors , 2019, Journal of Science: Advanced Materials and Devices.

[8]  R. Meghabar,et al.  Thermoplastic block copolymer: α-MethylStyrene and vinyl acetate catalyzed by clay layered called Maghnite-Na+ (Algerian MMT) , 2019, Journal of Polymer Research.

[9]  Sheng Bi,et al.  Poly(α-methylstyrene) polymer and small-molecule semiconductor blend with reduced crystal misorientation for organic thin film transistors , 2019, Journal of Materials Science: Materials in Electronics.

[10]  Jihua Chen,et al.  Polymer additive controlled morphology for high performance organic thin film transistors. , 2019, Soft matter.

[11]  Sheng Bi,et al.  Long-range crystal alignment with polymer additive for organic thin film transistors , 2019, Journal of Polymer Research.

[12]  Jihua Chen,et al.  Review Article: Crystal alignment for high performance organic electronics devices , 2019, Journal of Vacuum Science & Technology A.

[13]  Sheng Bi,et al.  Self-assembly crystal microribbons with nucleation additive for high-performance organic thin film transistors , 2019, Japanese Journal of Applied Physics.

[14]  Sheng Bi,et al.  Nanoscale alignment of semiconductor crystals for high-fidelity organic electronics applications , 2019, Applied Nanoscience.

[15]  Vincent Crasta,et al.  Structural, optical, mechanical and dielectric properties of titanium dioxide doped PVA/PVP nanocomposite , 2019, Journal of Polymer Research.

[16]  H. Klauk,et al.  Small contact resistance and high-frequency operation of flexible low-voltage inverted coplanar organic transistors , 2019, Nature Communications.

[17]  Md. Abdul Momin,et al.  Microstructural, compositional, topological and optical properties of plasma polymerized cyclohexane amorphous thin films , 2019, Journal of Polymer Research.

[18]  Chengming Jiang,et al.  Self-assembly diketopyrrolopyrrole-based materials and polymer blend with enhanced crystal alignment and property for organic field-effect transistors , 2019, Organic Electronics.

[19]  Chengming Jiang,et al.  Layer-dependent anisotropic frictional behavior in two-dimensional monolayer hybrid perovskite/ITO layered heterojunctions. , 2019, Physical Chemistry, Chemical Physics - PCCP.

[20]  M. Grigoraş,et al.  Synthesis and properties of copolyarylenes containing indolo[3,2-b]carbazole moieties in the backbone , 2019, Journal of Polymer Research.

[21]  K. Cho,et al.  Three-dimensional monolithic integration in flexible printed organic transistors , 2019, Nature Communications.

[22]  Qihua Wang,et al.  Ultralow-dielectric, nanoporous poly(methyl silsesquioxanes) films templated by a self-assembled block copolymer upon solvent annealing , 2018, Journal of Polymer Research.

[23]  Bin Su,et al.  Regulated Dewetting for Patterning Organic Single Crystals with Pure Crystallographic Orientation toward High Performance Field‐Effect Transistors , 2018, Advanced Functional Materials.

[24]  Chengming Jiang,et al.  Additive effect for organic solar cell fabrication by multi-layer inking and stamping , 2018, Journal of Science: Advanced Materials and Devices.

[25]  S. Chua,et al.  Control of morphology and performance of diketopyrrolopyrrole-based electrochromic polymers using solvent vapor annealing , 2018, Journal of Polymer Research.

[26]  P. Chan,et al.  Solution‐Processed Monolayer Organic Crystals for High‐Performance Field‐Effect Transistors and Ultrasensitive Gas Sensors , 2017 .

[27]  Sheng Bi,et al.  Temperature gradient controlled crystal growth from TIPS pentacene-poly(α-methyl styrene) blends for improving performance of organic thin film transistors , 2016 .

[28]  Sheng Bi,et al.  Solution-grown small-molecule organic semiconductor with enhanced crystal alignment and areal coverage for organic thin film transistors , 2015 .

[29]  Dawen Li,et al.  Solution-based 5,6,11,12-tetrachlorotetracene crystal growth for high-performance organic thin film transistors , 2015 .

[30]  Sheng Bi,et al.  Air-stable solution-processed n-channel organic thin film transistors with polymer-enhanced morphology , 2015 .

[31]  R. M. Frazier,et al.  Temperature gradient approach to grow large, preferentially oriented 6,13-bis(triisopropylsilylethynyl) pentacene crystals for organic thin film transistors , 2014 .

[32]  Minwoo Park,et al.  Growth of long triisopropylsilylethynyl pentacene (TIPS-PEN) nanofibrils in a polymer thin film during spin-coating. , 2014, Macromolecular rapid communications.

[33]  J. Keum,et al.  Improving performance of TIPS pentacene-based organic thin film transistors with small-molecule additives , 2014 .

[34]  J. Keum,et al.  Conjugated Polymer-Mediated Polymorphism of a High Performance, Small-Molecule Organic Semiconductor with Tuned Intermolecular Interactions, Enhanced Long-Range Order, and Charge Transport , 2013 .

[35]  Jihua Chen,et al.  Switching phase separation mode by varying the hydrophobicity of polymer additives in solution-processed semiconducting small-molecule/polymer blends , 2013 .

[36]  Ji Hoon Park,et al.  Origin of bias-stress induced instability in organic thin-film transistors with semiconducting small-molecule/insulating polymer blend channel. , 2013, ACS applied materials & interfaces.

[37]  Song Yun Cho,et al.  Inkjet-printed organic thin film transistors based on TIPS pentacene with insulating polymers , 2013 .

[38]  Zhenzhong Sun,et al.  Air-flow navigated crystal growth for TIPS pentacene-based organic thin-film transistors , 2012 .

[39]  S. Cho,et al.  High-performance organic thin film transistors based on inkjet-printed polymer/TIPS pentacene blends , 2012 .

[40]  Thomas D Anthopoulos,et al.  Air‐Stable and High‐Mobility n‐Channel Organic Transistors Based on Small‐Molecule/Polymer Semiconducting Blends , 2012, Advanced materials.

[41]  Sung Hoon Kim,et al.  Unipolar depletion-load organic circuits on flexible substrate by self-organized polymer blending with 6, 13-bis(triisopropylsilylethynyl)pentacene using ink-jet printing , 2012 .

[42]  Iain McCulloch,et al.  Thin-film morphology of inkjet-printed single-droplet organic transistors using polarized Raman spectroscopy: effect of blending TIPS-pentacene with insulating polymer. , 2011, ACS nano.

[43]  Jihua Chen,et al.  Enhanced Performance Consistency in Nanoparticle/TIPS Pentacene‐Based Organic Thin Film Transistors , 2011 .

[44]  C. K. Tee,et al.  Controlled solution deposition and systematic study of charge-transport anisotropy in single crystal and single-crystal textured TIPS pentacene thin films , 2009 .

[45]  Vivek M. Prabhu,et al.  Structure and properties of small molecule-polymer blend semiconductors for organic thin film transistors. , 2008, Journal of the American Chemical Society.

[46]  Jiro Kasahara,et al.  Solution-processed organic thin-film transistors with vertical nanophase separation , 2008 .

[47]  C. K. Tee,et al.  Grain-boundary-limited charge transport in solution-processed 6,13 bis(tri-isopropylsilylethynyl) pentacene thin film transistors , 2008 .

[48]  John E. Anthony,et al.  The influence of side chains on the structures and properties of functionalized pentacenes , 2008 .

[49]  John E. Anthony,et al.  High mobility solution processed 6,13-bis(triisopropyl-silylethynyl) pentacene organic thin film transistors , 2007 .

[50]  J S Brooks,et al.  Functionalized pentacene: improved electronic properties from control of solid-state order. , 2001, Journal of the American Chemical Society.