High‐Mobility Naphthalene Diimide and Selenophene‐Vinylene‐Selenophene‐Based Conjugated Polymer: n‐Channel Organic Field‐Effect Transistors and Structure–Property Relationship
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C. McNeill | Yun‐Hi Kim | M. Caironi | Yong‐Young Noh | A. Luzio | Yong Xu | G. Pace | F. Maddalena | E. Gann | D. Natali | C. de Falco | Won-Tae Park | Ran Kim | M. Sung | Long Dang | Carlo de Falco
[1] Guanxin Zhang,et al. Significant Improvement of Semiconducting Performance of the Diketopyrrolopyrrole-Quaterthiophene Conjugated Polymer through Side-Chain Engineering via Hydrogen-Bonding. , 2016, Journal of the American Chemical Society.
[2] K. Müllen,et al. Mobility Exceeding 10 cm2/(V·s) in Donor–Acceptor Polymer Transistors with Band-like Charge Transport , 2016 .
[3] Juhwan Kim,et al. High-Performance Organic Field-Effect Transistors with Directionally Aligned Conjugated Polymer Film Deposited from Pre-Aggregated Solution , 2015 .
[4] Zhihua Chen,et al. Macroscopic and high-throughput printing of aligned nanostructured polymer semiconductors for MHz large-area electronics , 2015, Nature Communications.
[5] Mario Caironi,et al. Fully-printed, all-polymer integrated twilight switch , 2015 .
[6] M. Caironi,et al. Defect-free Naphthalene Diimide Bithiophene Copolymers with Controlled Molar Mass and High Performance via Direct Arylation Polycondensation. , 2015, Journal of the American Chemical Society.
[7] Mario Caironi,et al. Multi-length-scale relationships between the polymer molecular structure and charge transport: the case of poly-naphthalene diimide bithiophene. , 2015, Physical chemistry chemical physics : PCCP.
[8] Yong-Young Noh,et al. Contact engineering in organic field-effect transistors , 2015 .
[9] Jang‐Joo Kim,et al. Effect of Doping Concentration on Microstructure of Conjugated Polymers and Characteristics in N‐Type Polymer Field‐Effect Transistors , 2015 .
[10] M. Caironi,et al. Assessing the width of Gaussian density of states in organic semiconductors , 2015 .
[11] Claire M. Lochner,et al. All-organic optoelectronic sensor for pulse oximetry , 2014, Nature Communications.
[12] Yun‐Hi Kim,et al. Dramatic Inversion of Charge Polarity in Diketopyrrolopyrrole‐Based Organic Field‐Effect Transistors via a Simple Nitrile Group Substitution , 2014, Advanced materials.
[13] M. Caironi,et al. Atomistic simulations of P(NDI2OD-T2) morphologies: from single chain to condensed phases. , 2014, The journal of physical chemistry. B.
[14] C. McNeill,et al. Structure–Function Relationships of High-Electron Mobility Naphthalene Diimide Copolymers Prepared Via Direct Arylation , 2014 .
[15] Marco Sampietro,et al. All‐Organic and Fully‐Printed Semitransparent Photodetectors Based on Narrow Bandgap Conjugated Molecules , 2014, Advanced materials.
[16] M. Caironi,et al. Nature of Charge Carriers in a High Electron Mobility Naphthalenediimide Based Semiconducting Copolymer , 2014 .
[17] Florian S. U. Fischer,et al. Charge Transport Anisotropy in Highly Oriented Thin Films of the Acceptor Polymer P(NDI2OD‐T2) , 2014 .
[18] M. Antognazza,et al. Mapping orientational order of charge-probed domains in a semiconducting polymer. , 2014, ACS nano.
[19] T. Shin,et al. A thienoisoindigo-naphthalene polymer with ultrahigh mobility of 14.4 cm(2)/V·s that substantially exceeds benchmark values for amorphous silicon semiconductors. , 2014, Journal of the American Chemical Society.
[20] Yuning Li,et al. Record High Electron Mobility of 6.3 cm2V−1s−1 Achieved for Polymer Semiconductors Using a New Building Block , 2014, Advanced materials.
[21] Hung Phan,et al. High‐Mobility Field‐Effect Transistors Fabricated with Macroscopic Aligned Semiconducting Polymers , 2014, Advanced materials.
[22] Juhwan Kim,et al. Organic integrated circuits for information storage based on ambipolar polymers and charge injection engineering , 2014 .
[23] A. Heeger,et al. General strategy for self-assembly of highly oriented nanocrystalline semiconducting polymers with high mobility. , 2014, Nano letters.
[24] M. Toney,et al. Effect of Backbone Regioregularity on the Structure and Orientation of a Donor–Acceptor Semiconducting Copolymer , 2014 .
[25] T. Lei,et al. Design, synthesis, and structure-property relationships of isoindigo-based conjugated polymers. , 2014, Accounts of chemical research.
[26] M. Caironi,et al. Synthesis, Electronic Structure, and Charge Transport Characteristics of Naphthalenediimide‐Based Co‐Polymers with Different Oligothiophene Donor Units , 2014 .
[27] Jianguo Mei,et al. Isoindigo, a Versatile Electron-Deficient Unit For High-Performance Organic Electronics , 2014 .
[28] Yun‐Hi Kim,et al. High‐Mobility Air‐Stable Naphthalene Diimide‐Based Copolymer Containing Extended π‐Conjugation for n‐Channel Organic Field Effect Transistors , 2013 .
[29] Luigino Criante,et al. Control of charge transport in a semiconducting copolymer by solvent-induced long-range order , 2013, Scientific Reports.
[30] M Sampietro,et al. Fully Inkjet‐Printed Organic Photodetectors with High Quantum Yield , 2013, Advanced materials.
[31] Haydyn D. T. Mertens,et al. A low-background-intensity focusing small-angle X-ray scattering undulator beamline , 2013 .
[32] M. Toney,et al. A general relationship between disorder, aggregation and charge transport in conjugated polymers. , 2013, Nature materials.
[33] C. Zannoni,et al. On the Supramolecular Packing of High Electron Mobility Naphthalene Diimide Copolymers: The Perfect Registry of Asymmetric Branched Alkyl Side Chains , 2013 .
[34] Kris Myny,et al. X-ray imager using solution processed organic transistor arrays and bulk heterojunction photodiodes on thin, flexible plastic substrate , 2013 .
[35] S. Jenekhe,et al. All-polymer solar cells with 3.3% efficiency based on naphthalene diimide-selenophene copolymer acceptor. , 2013, Journal of the American Chemical Society.
[36] Yun‐Hi Kim,et al. Record high hole mobility in polymer semiconductors via side-chain engineering. , 2013, Journal of the American Chemical Society.
[37] Mario Caironi,et al. High-resolution direct-writing of metallic electrodes on flexible substrates for high performance organic field effect transistors , 2013 .
[38] M. Caironi,et al. Toward Printed Integrated Circuits based on Unipolar or Ambipolar Polymer Semiconductors , 2013, Advanced materials.
[39] Henning Sirringhaus,et al. Molecular origin of high field-effect mobility in an indacenodithiophene–benzothiadiazole copolymer , 2013, Nature Communications.
[40] M. Kaltenbrunner,et al. An ultra-lightweight design for imperceptible plastic electronics , 2013, Nature.
[41] Zhihua Chen,et al. Remarkable order of a high-performance polymer. , 2013, Nano letters.
[42] M. Brinkmann,et al. Large Scale Alignment and Charge Transport Anisotropy of pBTTT Films Oriented by High Temperature Rubbing , 2013 .
[43] S. Jenekhe,et al. New n-type polymer semiconductors based on naphthalene diimide and selenophene derivatives for organic field-effect transistors , 2013 .
[44] C. B. Nielsen,et al. Recent Advances in the Development of Semiconducting DPP‐Containing Polymers for Transistor Applications , 2013, Advanced materials.
[45] M. Caironi,et al. Molecular Level Investigation of the Film Structure of a High Electron Mobility Copolymer via Vibrational Spectroscopy , 2013 .
[46] Wim Dehaene,et al. Optimized circuit design for flexible 8-bit RFID transponders with active layer of ink-jet printed small molecule semiconductors , 2013 .
[47] Soon-Ki Kwon,et al. Effect of Selenophene in a DPP Copolymer Incorporating a Vinyl Group for High‐Performance Organic Field‐Effect Transistors , 2013, Advanced materials.
[48] Jayanta K. Baral,et al. Synthesis, electronic structure, molecular packing/morphology evolution, and carrier mobilities of pure oligo-/poly(alkylthiophenes). , 2013, Journal of the American Chemical Society.
[49] C. McNeill,et al. Observation of a distinct surface molecular orientation in films of a high mobility conjugated polymer. , 2013, Journal of the American Chemical Society.
[50] Changduk Yang,et al. Solution-processable ambipolar diketopyrrolopyrrole-selenophene polymer with unprecedentedly high hole and electron mobilities. , 2012, Journal of the American Chemical Society.
[51] R. Coehoorn,et al. Effects of Gaussian disorder on charge carrier transport and recombination in organic semiconductors , 2012 .
[52] Changduk Yang,et al. A Selenophene Analogue of PCDTBT: Selective Fine-Tuning of LUMO to Lower of the Bandgap for Efficient Polymer Solar Cells , 2012 .
[53] Gui Yu,et al. A stable solution-processed polymer semiconductor with record high-mobility for printed transistors , 2012, Scientific Reports.
[54] S. Patil,et al. Diketopyrrolopyrrole-diketopyrrolopyrrole-based conjugated copolymer for high-mobility organic field-effect transistors. , 2012, Journal of the American Chemical Society.
[55] Henning Sirringhaus,et al. Spectroscopic investigation of oxygen- and water-induced electron trapping and charge transport instabilities in n-type polymer semiconductors. , 2012, Journal of the American Chemical Society.
[56] Yong‐Young Noh,et al. Highly stable printed polymer field-effect transistors and inverters via polyselenophene conjugated polymers , 2012 .
[57] Wei Jiang,et al. High Mobility, Air Stable, Organic Single Crystal Transistors of an n‐Type Diperylene Bisimide , 2012, Advanced materials.
[58] Jan Ilavsky,et al. Nika : software for two-dimensional data reduction , 2012 .
[59] Mario Caironi,et al. Charge Injection in Solution‐Processed Organic Field‐Effect Transistors: Physics, Models and Characterization Methods , 2012, Advanced materials.
[60] M. Antognazza,et al. Sub‐Micrometer Charge Modulation Microscopy of a High Mobility Polymeric n‐Channel Field‐Effect Transistor , 2011, Advanced materials.
[61] Mario Caironi,et al. Quantum-chemical insights into the prediction of charge transport parameters for a naphthalenetetracarboxydiimide-based copolymer with enhanced electron mobility. , 2011, Journal of the American Chemical Society.
[62] M. Caironi,et al. Charge injection engineering of ambipolar field-effect transistors for high-performance organic complementary circuits. , 2011, ACS Applied Materials and Interfaces.
[63] Antonio Facchetti,et al. n-Channel semiconductor materials design for organic complementary circuits. , 2011, Accounts of chemical research.
[64] Jan Fyenbo,et al. Product integration of compact roll-to-roll processed polymer solar cell modules: methods and manufacture using flexographic printing, slot-die coating and rotary screen printing , 2010 .
[65] Alberto Salleo,et al. Indacenodithiophene semiconducting polymers for high-performance, air-stable transistors. , 2010, Journal of the American Chemical Society.
[66] B. Cowie,et al. The Current Performance of the Wide Range (90-2500 eV) Soft X-ray Beamline at the Australian Synchrotron , 2010 .
[67] Henning Sirringhaus,et al. Efficient charge injection from a high work function metal in high mobility n-type polymer field-effect transistors , 2010 .
[68] Shinuk Cho,et al. New Semiconducting Polymers Containing 3,6-Dimethyl(thieno[3,2-b]thiophene or selenopheno[3,2-b]selenophene) for Organic Thin-Film Transistors , 2009 .
[69] A. Facchetti,et al. A high-mobility electron-transporting polymer for printed transistors , 2009, Nature.
[70] Zhihua Chen,et al. Naphthalenedicarboximide- vs perylenedicarboximide-based copolymers. Synthesis and semiconducting properties in bottom-gate N-channel organic transistors. , 2009, Journal of the American Chemical Society.
[71] M. Chabinyc,et al. Regioregular poly(3-hexyl)selenophene: a low band gap organic hole transporting polymer. , 2007, Chemical communications.
[72] Tobin J Marks,et al. Tuning orbital energetics in arylene diimide semiconductors. materials design for ambient stability of n-type charge transport. , 2007, Journal of the American Chemical Society.
[73] S. Sze,et al. Physics of Semiconductor Devices: Sze/Physics , 2006 .
[74] P. Dastoor,et al. Methods in carbon K-edge NEXAFS: Experiment and analysis , 2006 .
[75] M. Toney,et al. Highly oriented crystals at the buried interface in polythiophene thin-film transistors , 2006 .
[76] M. Shkunov,et al. Thiophene and Selenophene Copolymers Incorporating Fluorinated Phenylene Units in the Main Chain: Synthesis, Characterization, and Application in Organic Field-Effect Transistors , 2005 .
[77] Stephen R. Forrest,et al. The path to ubiquitous and low-cost organic electronic appliances on plastic , 2004, Nature.
[78] C. McNeill,et al. Quick AS NEXAFS Tool (QANT): a program for NEXAFS loading and analysis developed at the Australian Synchrotron. , 2016, Journal of synchrotron radiation.
[79] Yong‐Young Noh,et al. Large Enhancement of Carrier Transport in Solution‐Processed Field‐Effect Transistors by Fluorinated Dielectric Engineering , 2016, Advanced materials.
[80] M. Brinkmann,et al. Orienting semi-conducting π-conjugated polymers. , 2014, Macromolecular rapid communications.
[81] H. Sirringhaus. 25th Anniversary Article: Organic Field-Effect Transistors: The Path Beyond Amorphous Silicon , 2014, Advanced materials.
[82] F. Krebs,et al. Roll‐to‐Roll fabrication of large area functional organic materials , 2013 .
[83] N. Stingelin,et al. Low band gap selenophene–diketopyrrolopyrrole polymers exhibiting high and balanced ambipolar performance in bottom-gate transistors , 2012 .