Thermo- and solvent-responsive polymer complex created from supramolecular complexation between a helix-forming polysaccharide and a cationic polythiophene.

The helical structure is one of key structural components for both biological systems and artificial chiral systems. So far, we have succeeded in fabricating "tight" insulated molecular wires consisting of a triple-stranded cohelical structure formed through supramolecular wrapping of synthetic polymers by a helix-forming polysaccharide (schizophyllan). Herein, we have designed a new modified polysaccharide (Cur-oeg) to form a "loose" macromolecular complex with a conjugated polymer (CP) that allows structural changes in response to external stimuli. Cur-oeg forms a helical complex with an achiral cationic polythiophene (PT1), and the effective conjugation length is changed by temperature, showing a large absorption peak shift from 403 to 482 nm between 85 and 5 °C. According to the change in the conjugation system, the fluorescence and the induced circular dichroism show the continuous spectral shifts under temperature control. The color changes in the absorption and the fluorescence are detectable with observation by the naked eye and are reversibly controlled under thermal cycles, indicating that this system has the function of a "molecular thermometer". It is shown that the induced thermoresponsiveness is associated with structural rearrangement of the helical conformation of PT1 in the complex. Moreover, another unique responsiveness is discovered for the film state: that is, the film color is varied when it is exposed to the vapor of water or methanol (vaporchromism), resulting from the structural change of PT1 occurring even in the film state. These flexible molecular motions in both the solution state and the film state can be applicable to the design of CP-based smart sensors, polarized materials, switching devices, etc.

[1]  T. Hirao,et al.  Redox-Induced Reversible Conformational Switching of Poly(aniline sulfonic acid) with Transition Metals in Aqueous Solution , 2010 .

[2]  T. Verbiest,et al.  Expression of Supramolecular Chirality in Block Copoly(thiophene)s , 2010 .

[3]  E. Nesterov,et al.  Temperature-Induced Control of Conformation and Conjugation Length in Water-Soluble Fluorescent Polythiophenes , 2010 .

[4]  E. Yashima,et al.  Helical polymers: synthesis, structures, and functions. , 2009, Chemical reviews.

[5]  S. Shinkai,et al.  On the helical motif of the complexes created by association of helix-forming schizophyllan (SPG) and helix-forming polythiophene derivatives. , 2009, Chemistry.

[6]  E. W. Meijer,et al.  pH-switchable helicity of DNA-templated assemblies. , 2009, Angewandte Chemie.

[7]  S. Shinkai,et al.  Control of polythiophene redox potentials based on supramolecular complexation with helical schizophyllan. , 2009, Chemical communications.

[8]  S. Shinkai,et al.  Quantum dots arrangement and energy transfer control via charge-transfer complex achieved on poly(phenylene ethynylene)/schizophyllan nanowires. , 2009, Chemistry, an Asian journal.

[9]  L. Tang,et al.  A fluorescent thermometer operating in aggregation-induced emission mechanism: probing thermal transitions of PNIPAM in water. , 2009, Chemical communications.

[10]  Jong-Man Kim,et al.  Recent conceptual and technological advances in polydiacetylene-based supramolecular chemosensors. , 2009, Chemical Society reviews.

[11]  J. M. Reyna-González,et al.  Synthesis and characterization of novel polythiophenes bearing oligo (ethylene glycol) spacers and crown ethers , 2009 .

[12]  Xiongyan Zhao,et al.  Synthesis, characterization, and photochromic behaviors of polythiophene derivatives in the solid state , 2009 .

[13]  S. Shinkai,et al.  Circularly Polarized Luminescence from Supramolecular Chiral Complexes of Achiral Conjugated Polymers and a Neutral Polysaccharide , 2009 .

[14]  M. Leclerc,et al.  Structure and Segmental Motions in a Substituted Polythiophene: A Solid‐State NMR Study , 2008 .

[15]  S. Shinkai,et al.  Self-assembled polysaccharide nanotubes generated from β-1,3-glucan polysaccharides , 2008 .

[16]  Chun Xing Li,et al.  Optically active supramolecular complexes of water-soluble achiral polythiophenes and folic acid: spectroscopic studies and sensing applications. , 2008, Langmuir : the ACS journal of surfaces and colloids.

[17]  C. Mendonça,et al.  Optical, electrical, and thermochromic properties of polyazothiophene Langmuir–Blodgett films , 2008 .

[18]  Stefan Hecht,et al.  Helicity inversion in responsive foldamers induced by achiral halide ion guests. , 2008, Angewandte Chemie.

[19]  S. Uemura,et al.  Perylene bisimide J-aggregates with absorption maxima in the NIR. , 2008, Chemical communications.

[20]  K. Uezu,et al.  Molecular dynamics studies of side chain effect on the beta-1,3-D-glucan triple helix in aqueous solution. , 2008, Biomacromolecules.

[21]  M. Leclerc,et al.  Optical detection of DNA and proteins with cationic polythiophenes. , 2008, Accounts of chemical research.

[22]  E. W. Meijer,et al.  Amplification of chirality in dynamic supramolecular aggregates. , 2007, Angewandte Chemie.

[23]  M. Ikeda,et al.  Controlled stability of the triple-stranded helical structure of a beta-1,3-glucan with a chromophoric aromatic moiety at a peripheral position. , 2007, Chemistry, an Asian journal.

[24]  K. Sakurai,et al.  Instantaneous inclusion of a polynucleotide and hydrophobic guest molecules into a helical core of cationic beta-1,3-glucan polysaccharide. , 2007, Journal of the American Chemical Society.

[25]  H. Anderson,et al.  Insulated molecular wires. , 2007, Angewandte Chemie.

[26]  K. Sakurai,et al.  β-1,3-Glucan (Schyzophyllan) Can Act as a One-Dimensional Host for Creating Chirally Twisted Poly(p-phenylene Ethynylene) , 2007 .

[27]  Derek N Woolfson,et al.  Peptide-based fibrous biomaterials: Some things old, new and borrowed. , 2006, Current opinion in chemical biology.

[28]  D. Balogh,et al.  Synthesis and characterization of a dye-functionalized polythiophene with different chromic properties , 2006 .

[29]  Chun Xing Li,et al.  Unexpected chiroptical inversion observed for supramolecular complexes formed between an achiral polythiophene and ATP. , 2006, Chemistry, an Asian journal.

[30]  A. P. Silva,et al.  Luminescent molecular thermometers , 2006 .

[31]  E. Yashima,et al.  Two-dimensional surface chirality control by solvent-induced helicity inversion of a helical polyacetylene on graphite. , 2006, Journal of the American Chemical Society.

[32]  M. Iyoda,et al.  Synthesis of tris(tetrathiafulvaleno)dodecadehydro- [18]annulenes and their self-assembly. , 2006, Organic letters.

[33]  D. Whitten,et al.  Super-helix formation induced by cyanine J-aggregates onto random-coil carboxymethyl amylose as template. , 2006, Journal of the American Chemical Society.

[34]  Chun Xing Li,et al.  'Click chemistry' on polysaccharides: a convenient, general, and monitorable approach to develop (1-->3)-beta-D-glucans with various functional appendages. , 2005, Carbohydrate research.

[35]  E. W. Meijer,et al.  Non-ionic polythiophenes: a non-aggregating folded structure in water. , 2005, Chemical communications.

[36]  Chun Li,et al.  A sensitive colorimetric and fluorescent probe based on a polythiophene derivative for the detection of ATP. , 2005, Angewandte Chemie.

[37]  T. Masuda,et al.  Synthesis, Chiroptical Properties, and pH Responsibility of Aspartic Acid- and Glutamic Acid-Based Helical Polyacetylenes , 2005 .

[38]  Chun Xing Li,et al.  Beta-1,3-glucan polysaccharides as novel one-dimensional hosts for DNA/RNA, conjugated polymers and nanoparticles. , 2005, Chemical communications.

[39]  S. Balamurugan,et al.  Highly water-soluble thermally responsive poly(thiophene)-based brushes. , 2005, Angewandte Chemie.

[40]  Shin‐ichiro Kawano,et al.  Quater-, quinque-, and sexithiophene organogelators: unique thermochromism and heating-free sol-gel phase transition. , 2005, Chemistry.

[41]  K. Akagi,et al.  Optically active conjugated polymers prepared from achiral monomers by polycondensation in a chiral nematic solvent. , 2005, Angewandte Chemie.

[42]  S. Stupp,et al.  Mirror image nanostructures. , 2005, Journal of the American Chemical Society.

[43]  M. Leclerc,et al.  Ferrocene‐Functionalized Cationic Polythiophene for the Label‐Free Electrochemical Detection of DNA , 2005 .

[44]  T. Masuda,et al.  Tune of the helix sense of amino acid-containing poly(N-propargylamides) by temperature and solvent. Control by competition between structurally different units with the same chirality , 2005 .

[45]  K. Uezu,et al.  Polysaccharide-polynucleotide complexes. Part 32. Structural analysis of the curdlan/poly(cytidylic acid) complex with semiempirical molecular orbital calculations. , 2005, Biomacromolecules.

[46]  E. W. Meijer,et al.  About Supramolecular Assemblies of π-Conjugated Systems , 2005 .

[47]  Chun Xing Li,et al.  Self-assembly of supramolecular chiral insulated molecular wire. , 2005, Journal of the American Chemical Society.

[48]  Mario Leclerc,et al.  Optical sensors based on hybrid DNA/conjugated polymer complexes. , 2005, Chemistry.

[49]  T. Endo,et al.  ATP as building blocks for the self-assembly of excitonic nanowires. , 2005, Journal of the American Chemical Society.

[50]  Geneviève Sauvé,et al.  Regioregular poly(thiophene-3-alkanoic acid)s: water soluble conducting polymers suitable for chromatic chemosensing in solution and solid state , 2004 .

[51]  K. Sakurai,et al.  Beta-1,3-glucan (schizophyllan) can act as a one-dimensional host for creation of novel poly(aniline) nanofiber structures. , 2004, Organic letters.

[52]  B. Armitage,et al.  DNA-templated assembly of helical cyanine dye aggregates: a supramolecular chain polymerization. , 2004, Accounts of chemical research.

[53]  K. Nilsson,et al.  Enantiomeric substituents determine the chirality of luminescent conjugated polythiophenes , 2004 .

[54]  K. Sakurai,et al.  A polysaccharide carrier for immunostimulatory CpG DNAs to enhance cytokine secretion. , 2004, Journal of the American Chemical Society.

[55]  A. P. de Silva,et al.  Fluorescent polymeric AND logic gate with temperature and pH as inputs. , 2004, Journal of the American Chemical Society.

[56]  T. Aida,et al.  A novel supramolecular multicolor thermometer by self-assembly of a pi-extended zinc porphyrin complex. , 2003, Journal of the American Chemical Society.

[57]  A. Mucci,et al.  A Self-Assembling Polythiophene Functionalised with a Cysteine Moiety , 2003 .

[58]  Jonathan V Selinger,et al.  Chiral conflict. The effect of temperature on the helical sense of a polymer controlled by the competition between structurally different enantiomers: from dilute solution to the lyotropic liquid crystal state. , 2003, Journal of the American Chemical Society.

[59]  Y. Takeoka,et al.  Thermochromic and solvatochromic properties of poly(thiophene) derivatives with liquid crystal moiety , 2003 .

[60]  M. Leclerc,et al.  Planar-to-Nonplanar Conformational Transition in Thermochromic Polythiophenes: A Spectroscopic Study , 2003 .

[61]  John M. Lupton,et al.  A molecular thermometer based on long-lived emission from platinum octaethyl porphyrin , 2002 .

[62]  E. Yashima,et al.  Solvent-Induced Chiroptical Changes in Supramolecular Assemblies of an Optically Active, Regioregular Polythiophene , 2002 .

[63]  M. Boissinot,et al.  Colorimetric and fluorometric detection of nucleic acids using cationic polythiophene derivatives. , 2002, Angewandte Chemie.

[64]  E. W. Meijer,et al.  Highly ordered structures of amphiphilic polythiophenes in aqueous media , 2002 .

[65]  Matthew J. Mio,et al.  A field guide to foldamers. , 2001, Chemical reviews.

[66]  R. Nolte,et al.  Chiral architectures from macromolecular building blocks. , 2001, Chemical reviews.

[67]  T. Nakano,et al.  Synthetic helical polymers: conformation and function. , 2001, Chemical reviews.

[68]  E. Yashima,et al.  Switching of a macromolecular helicity for visual distinction of molecular recognition events. , 2001, Journal of the American Chemical Society.

[69]  K. Sakurai,et al.  Polysaccharide--polynucleotide complexes. 2. Complementary polynucleotide mimic behavior of the natural polysaccharide schizophyllan in the macromolecular complex with single-stranded RNA and DNA. , 2001, Biomacromolecules.

[70]  J. Paukkunen,et al.  Polyelectrolyte multilayers prepared from water-soluble poly(alkoxythiophene) derivatives. , 2001, Journal of the American Chemical Society.

[71]  Y. Tokura,et al.  Hysteretic Thermochromism of Regioregular Poly(3-alkylthiophene) Thin Films , 2001 .

[72]  S. Shinkai,et al.  Molecular Recognition of Adenine, Cytosine, and Uracil in a Single-Stranded RNA by a Natural Polysaccharide: Schizophyllan , 2000 .

[73]  R. Janssen,et al.  On the origin of optical activity in polythiophenes ? In honour of Professor Giuseppe Zerbi on the o , 2000 .

[74]  M. Fujiki Helix Magic. Thermo-Driven Chiroptical Switching and Screw-Sense Inversion of Flexible Rod Helical Polysilylenes , 2000 .

[75]  K. Sakurai,et al.  Phase separation in the mixture of schizophyllan and poly(ethylene oxide) in aqueous solution driven by a specific interaction between the glucose side chain and poly(ethylene oxide). , 2000, Carbohydrate research.

[76]  Mario Leclerc,et al.  Optical and Electrochemical Transducers Based on Functionalized Conjugated Polymers , 1999 .

[77]  K. G. Chittibabu,et al.  Temperature dependent photoluminescence and electroluminescence properties of polythiophene with hydrogen bonding side chain , 1998 .

[78]  D. Brant,et al.  Observations of the (1→3)-β-d-Glucan Linear Triple Helix to Macrocycle Interconversion Using Noncontact Atomic Force Microscopy , 1998 .

[79]  M. Leclerc,et al.  RESPONSIVE SUPRAMOLECULAR POLYTHIOPHENE ASSEMBLIES , 1998 .

[80]  K. Kubota,et al.  Extensive studies on pi-stacking of poly(3-alkylthiophene-2,5-diyl)s and poly(4-alkylthiazole-2,5-diyl)s by optical spectroscopy, NMR analysis, light scattering analysis, and X-ray crystallography , 1998 .

[81]  M. Leclerc,et al.  Highly Conducting Water-Soluble Polythiophene Derivatives , 1997 .

[82]  E. Meijer,et al.  Unconventional Amphiphilic Polymers Based on Chiral Polyethylene Oxides , 1997 .

[83]  Robert S. Loewe,et al.  Self-Assembly and Disassembly of Regioregular, Water Soluble Polythiophenes: Chemoselective Ionchromatic Sensing in Water , 1997 .

[84]  M. Leclerc,et al.  Ionochromic and thermochromic phenomena in a regioregular polythiophene derivative bearing oligo(oxyethylene) side chains , 1996 .

[85]  Rudolf Zentel,et al.  Photochemical Inversion of the Helical Twist Sense in Chiral Polyisocyanates , 1995 .

[86]  M. Leclerc,et al.  Chromic phenomena in regioregular and nonregioregular polythiophene derivatives , 1995 .

[87]  S. Holdcroft,et al.  Molecular control of luminescence from poly(3-hexylthiophenes) , 1993 .

[88]  M. Leclerc,et al.  Rod-to-coil transition in alkoxy-substituted polythiophenes , 1992 .

[89]  C. A. Duda,et al.  Solution conformation of laminaribioside and (1 → 3)‐β‐D‐glucan from optical rotation , 1991 .

[90]  A. Teŕamoto,et al.  Ordered structure in aqueous polysaccharide. 5. Cooperative order-disorder transition in aqueous schizophyllan , 1986 .

[91]  R. Marchessault,et al.  Packing analysis of carbohydrates and polysaccharides. Part 14. Triple-helical crystalline structure of curdlan and paramylon hydrates , 1983 .

[92]  R. Marchessault,et al.  Triple-Helical Structure of(1→3)-β-D-Glucan , 1980 .

[93]  K. Ogawa,et al.  Conformational behavior of a gel-forming (1→3)-β-D-glucan in alkaline solution , 1972 .

[94]  K. Sakurai,et al.  Click Chemistry on Curdlan: A Regioselective and Quantitative Approach to Develop Artificial β-1,3-Glucans with Various Functional Appendages , 2006 .

[95]  Taro Kimura,et al.  Separation technique for messenger RNAs by use of schizophyllan/poly(A) tail complexation. , 2005, Biomacromolecules.

[96]  M. Lanzi,et al.  Synthesis, characterization and optical properties of a regioregular and soluble poly[3-(10-hydroxydecyl)-2,5-thienylene] , 2003 .

[97]  E. W. Meijer,et al.  Hierarchical Order in Supramolecular Assemblies of Hydrogen-Bonded Oligo(p-phenylene vinylene)s , 2001 .

[98]  A. Holmes,et al.  Conformational changes in regioregular polythiophenes due to crosslinking , 1999 .

[99]  R. Janssen,et al.  Chiroptical properties of highly ordered di[(S)-2-methylbutoxy] substituted polythiophene and poly(p-phenylene vinylene) , 1997 .

[100]  G. Wallace,et al.  Chemical generation of optically active polyaniline via the doping of emeraldine base with (+)- or (−)-camphorsulfonic acid , 1995 .