Precise synthesis of α,ω-chain-end-functionalized Poly(dimethylsiloxane) with bromoaryl groups for incorporation in naphthalene-diimide-based N-type semiconducting polymers
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Tomoya Higashihara | Keita Fuchise | Keisuke Sato | Yudai Hemmi | Aoto Kato | Hiroyuki Matsui | Hiroyuki Matsui
[1] Xiaohong Wang,et al. Intrinsically Stretchable n-Type Polymer Semiconductors through Side Chain Engineering , 2021, Macromolecules.
[2] Tomoya Higashihara,et al. Precise synthesis of α,ω-chain-end functionalized poly(dimethylsiloxane) with azide groups based on metal-free ring-opening polymerization and a quantitative azidation reaction , 2021 .
[3] Tomoya Higashihara. Strategic design and synthesis of π-conjugated polymers suitable as intrinsically stretchable semiconducting materials , 2021, Polymer Journal.
[4] Kazuhiko Sato,et al. Precise Synthesis of Linear Polysiloxanes End-Functionalized with Alkynylsilyl Groups by Organocatalytic Ring-Opening Polymerization of Cyclotrisiloxanes , 2021 .
[5] Yanchun Han,et al. Optimizing Morphology to Trade Off Charge Transport and Mechanical Properties of Stretchable Conjugated Polymer Films , 2021 .
[6] T. Satoh,et al. Facile one-pot synthesis of rod-coil bio-block copolymers and uncovering their role in forming the efficient stretchable touch-responsive light emitting diodes , 2021, Chemical Engineering Journal.
[7] V. Fíla,et al. Poly(imide‐siloxane) films with controlled thickness , 2021 .
[8] S. Mannsfeld,et al. Ultrasoft and High‐Mobility Block Copolymers for Skin‐Compatible Electronics , 2020, Advanced materials.
[9] T. Satoh,et al. Suzuki–Miyaura catalyst-transfer polycondensation of triolborate-type fluorene monomer: toward rapid access to polyfluorene-containing block and graft copolymers from various macroinitiators , 2020, Polymer Chemistry.
[10] Haejoon Choi,et al. Synthesis of Conjugated Rod–Coil Block Copolymers by RuPhos Pd-Catalyzed Suzuki–Miyaura Catalyst-Transfer Polycondensation: Initiation from Coil-Type Polymers , 2020 .
[11] Kazuhiko Sato,et al. Organocatalytic ring-opening polymerization of cyclotrisiloxanes using silanols as initiators for the precise synthesis of asymmetric linear polysiloxanes , 2020 .
[12] A. Jen,et al. Recent advances in molecular design of functional conjugated polymers for high-performance polymer solar cells , 2019 .
[13] Fugui Xu,et al. “Rod–coil” copolymers get self-assembled in solution , 2019, Materials Chemistry Frontiers.
[14] T. Satoh,et al. Effect of a conjugated/elastic block sequence on the morphology and electronic properties of polythiophene based stretchable block copolymers , 2019, Polymer Chemistry.
[15] T. Park,et al. Donor–Acceptor‐Conjugated Polymer for High‐Performance Organic Field‐Effect Transistors: A Progress Report , 2019, Advanced Functional Materials.
[16] Tomoya Higashihara,et al. Synthesis and Deformable Hierarchical Nanostructure of Intrinsically Stretchable ABA Triblock Copolymer Composed of Poly(3-hexylthiophene) and Polyisobutylene Segments , 2019, ACS Applied Polymer Materials.
[17] P. Klonos. Crystallization, glass transition, and molecular dynamics in PDMS of low molecular weights: A calorimetric and dielectric study , 2018, Polymer.
[18] Wen‐Chang Chen,et al. Intrinsically stretchable, solution-processable functional poly(siloxane-imide)s for stretchable resistive memory applications , 2018 .
[19] Samuel E. Root,et al. Stretchable and Degradable Semiconducting Block Copolymers. , 2018, Macromolecules.
[20] Kazuhiko Sato,et al. Organocatalytic controlled/living ring-opening polymerization of cyclotrisiloxanes initiated by water with strong organic base catalysts , 2018, Chemical science.
[21] E. Gomez,et al. Recent Developments in Chain-Growth Polymerizations of Conjugated Polymers , 2017 .
[22] D. Yan,et al. Recent advances in the solution self‐assembly of amphiphilic “rod‐coil” copolymers , 2017 .
[23] T. Satoh,et al. Stretchable Conjugated Rod–Coil Poly(3-hexylthiophene)-block-poly(butyl acrylate) Thin Films for Field Effect Transistor Applications , 2017 .
[24] G. Koeckelberghs,et al. Advances in the controlled polymerization of conjugated polymers , 2017 .
[25] Mario Leclerc,et al. Direct (Hetero)arylation Polymerization: Simplicity for Conjugated Polymer Synthesis. , 2016, Chemical reviews.
[26] Hua Zhang,et al. Non-volatile resistive memory devices based on solution-processed ultrathin two-dimensional nanomaterials. , 2015, Chemical Society reviews.
[27] Jianguo Mei,et al. Conjugation-Break Spacers in Semiconducting Polymers: Impact on Polymer Processability and Charge Transport Properties , 2015 .
[28] Zongquan Wu,et al. Facile Preparation of Regioregular Poly(3-hexylthiophene) and Its Block Copolymers with π-Allylnickel Complex as External Initiator , 2014 .
[29] I. Yilgor,et al. Silicone containing copolymers: Synthesis, properties and applications , 2014 .
[30] M. Funahashi,et al. Liquid-crystalline perylene tetracarboxylic bisimide derivatives bearing cyclotetrasiloxane moieties , 2013 .
[31] T. Michinobu,et al. Synthesis and Postfunctionalization of Rod-Coil Diblock and Coil-Rod-Coil Triblock Copolymers Composed of Poly(3-hexylthiophene) and Poly(4-(4'-N,N-dihexylaminophenylethynyl)styrene) Segments , 2012 .
[32] M. Funahashi,et al. High electron mobility in a columnar phase of liquid-crystalline perylene tetracarboxylic bisimide bearing oligosiloxane chains , 2012 .
[33] Z. Ahmad,et al. Dielectric constant and refractive index of poly (siloxane–imide) block copolymer , 2011 .
[34] David J. Lunn,et al. Cylindrical micelles of controlled length with a π-conjugated polythiophene core via crystallization-driven self-assembly. , 2011, Journal of the American Chemical Society.
[35] Wen‐Chang Chen,et al. Conjugated rod–coil block copolymers: Synthesis, morphology, photophysical properties, and stimuli-responsive applications , 2011 .
[36] B. Sumpter,et al. High-performance field-effect transistors based on polystyrene-b-poly(3-hexylthiophene) diblock copolymers. , 2011, ACS nano.
[37] H. Moon,et al. Facile Synthetic Route for Well-Defined Poly(3-hexylthiophene)-block-poly(methyl methacrylate) Copolymer by Anionic Coupling Reaction , 2011 .
[38] Luping Yu,et al. Stille polycondensation for synthesis of functional materials. , 2011, Chemical reviews.
[39] Bernard Boutevin,et al. Well-architectured poly(dimethylsiloxane)-containing copolymers obtained by radical chemistry. , 2010, Chemical reviews.
[40] W. Su,et al. Synthesis and Self-Assembly of Poly(diethylhexyloxy-p-phenylenevinylene)-b-poly(methyl methacrylate) Rod-Coil Block Copolymers , 2009 .
[41] A. Facchetti,et al. A high-mobility electron-transporting polymer for printed transistors , 2009, Nature.
[42] M. Stamm,et al. Surface engineering using Kumada catalyst-transfer polycondensation (KCTP): preparation and structuring of poly(3-hexylthiophene)-based graft copolymer brushes. , 2009, Journal of the American Chemical Society.
[43] Tomoya Higashihara,et al. Facile Synthesis of ABA Triblock Copolymer Containing Regioregular Poly(3-hexylthiophene) and Polystyrene Segments via Linking Reaction of Poly(styryl)lithium , 2008 .
[44] M. Meldal. Polymer “Clicking” by CuAAC Reactions , 2008 .
[45] W. Su,et al. Facile synthesis of well-defined block copolymers containing regioregular poly(3-hexyl thiophene) via anionic macroinitiation method and their self-assembly behavior. , 2007, Journal of the American Chemical Society.
[46] M. Anthamatten,et al. Synthesis and characterization of polyimide‐polysiloxane segmented copolymers for fuel cell applications , 2007 .
[47] Sangil Kim,et al. Poly(imide siloxane) and carbon nanotube mixed matrix membranes for gas separation , 2006 .
[48] F. Beyer,et al. Influence of system variables on the morphological and dynamic mechanical behavior of polydimethylsiloxane based segmented polyurethane and polyurea copolymers: a comparative perspective , 2004 .
[49] Philipp Holzer,et al. Click chemistry in materials synthesis. 1. Adhesive polymers from copper‐catalyzed azide‐alkyne cycloaddition , 2004 .
[50] K. Müllen,et al. Microscopic Morphology of Polyfluorene–Poly(ethylene oxide) Block Copolymers: Influence of the Block Ratio , 2004 .
[51] Tomasz Kowalewski,et al. Tuning the electrical conductivity and self-assembly of regioregular polythiophene by block copolymerization: nanowire morphologies in new di- and triblock copolymers. , 2002, Angewandte Chemie.
[52] V. Urban,et al. Syntheses of Amphiphilic Diblock Copolymers Containing a Conjugated Block and Their Self-Assembling Properties , 2000 .
[53] K. Müllen,et al. Synthesis of rod-coil block copolymers via end-functionalized poly(p-phenylene)s , 1998 .