ライフサイエンスコーパス: polythiophene

1 esigned based on boronic acid-functionalized polythiophene.

2 sion in hexafluoroisopropanol functionalized polythiophene.

3 ated polymers: polyaniline, polypyrrole, and polythiophene.

4 stituted trans-polyacetylenes, polyynes, and polythiophenes.

5 o cause considerable twists in its oligo- or polythiophene analogues.

6 le coupling polymerization of end-functional polythiophene and AA + BB monomers, is presented.

7 the structural and electronic properties of polythiophene and polyprrrole-based systems have been in

8 monstrate concurrent redox reactions of both polythiophene and viologen in solid-state devices and co

9 ting polymer nanofibers such as polyaniline, polythiophene, and poly(3-hexylthiophene) can be produce

10 operties of excited states in the archetypal polythiophene are investigated via aggregates suspended

11 ing that highly regioregular and crystalline polythiophenes are not required in order to effectively

12 at ethylenedioxy substitution planarizes the polythiophene backbone but the experimentally observed b

13 Solution self-assembly of the regioregular polythiophene-based block copolymer poly(3-hexylthiophen

14 Previous efforts to generate this phase in polythiophene-based block copolymers have failed due to

15 We report the synthesis of a novel polythiophene-based host-guest copolymer incorporating a

16 We examine a family of polythiophenes bearing nitroxide radical groups, showing

17 Addition of a polythiophene block copolymer with a different corona-fo

18 The oxidation of polythiophenes can be controlled with this potent, yet o

19 Upon rebinding, the TNV-polythiophene complex changes the fluorescence intensity

20 ke micelles with a crystalline pi-conjugated polythiophene core with lengths up to ca. 700 nm were su

21 thoxy-5'-octylphenyl)thiophene) (POMeOPT), a polythiophene derivative with bulky side chains, can be

22 tectable conformational change in conjugated polythiophene derivatives from forming single-stranded D

23 rroics consisting of electronically distinct polythiophene derivatives is reported.

24 he solution-state assembly of all-conjugated polythiophene diblock copolymers containing nonpolar (he

25 tion organic solar cells comprising either a polythiophene donor and two fullerene acceptors or two p

26 ene donor and two fullerene acceptors or two polythiophene donors and a fullerene acceptor are shown

27 The device structure is similar to that of a polythiophene field effect transistor, but ethylviologen

28 sion is not affected by the thickness of the polythiophene film and the nature of TNV specific bindin

29 densities exceeding 2.5 x 10(14) cm(-2), the polythiophene film becomes superconducting.

30 ion by electropolymerization of biotinylated polythiophene films on the surface of miniaturized, disp

31 ight emitting diode as the light source, and polythiophene: fullerene type bulk-heterojunction device

32 CPEs with cationic polythiophenes, in both homopolymer and block copolymer

33 The biosensor utilizes a polythiophene interface containing fused quinone moietie

34 In this report, a new polythiophene interface is fabricated containing fused q

35 integrate SWNT and a suitably functionalized polythiophene into nanostructured ITO electrodes.

36 Three novel polythiophene isomers are reported whereby the only diff

37 The conductivity of the polythiophene layer was reversibly switched between high

38 ally, S has been substituted by Se and Te in polythiophene, leading to polyseleophene and polytelluro

39 necessary for good electronic performance of polythiophene-like systems.

40 f-flight charge transport of the homopolymer polythiophene (mu(h) ~10(-4) cm(2) V(-1) s(-1)) in the c

41 Here we show that pure polythiophene nanofibres can have a thermal conductivity

42 necrosis virus (TNV) have been formed within polythiophene nanofilms with an approximate thickness of

43 Nanohybrids consisting of Au nanocluster and polythiophene nanowire assemblies exhibit unique thermal

44 Mixed bilayers, including one formed from polythiophene on top of polypyrrole, have also been cons

45 ographic data of PEDOT and other substituted polythiophenes, our work seeks to establish a comprehens

46 Raman spectroscopy revealed reversible polythiophene oxidation to its polaron form accompanied

47 n thin films of regioregular and regiorandom polythiophene polymers.

48 Stacking (bilayer formation) of pure polythiophene, polypyrrole and their derivatives leads t

49 posite as tracing tag to label DNA probe and polythiophene (PT) as immobilization platform of sensing

50 hiolated mannose (TM)/quinone functionalised polythiophene (QFPT) thin film was modified on EQCM/Au e

51 rovide a redox counter-reaction to accompany polythiophene redox reactions.

52 ting electron donor/acceptor nanocomposites, polythiophene represents the light-harvesting chromophor

53 The threshold voltages of our polythiophene-sorted SWNT thin-film transistors can be t

54 arge transport is demonstrated in an undoped polythiophene thin film, with average mobilities above 3

55 se of Rozen's reagent (HOFCH3 CN) to convert polythiophenes to polymers containing thiophene-1,1-diox

56 nthesis of ionically functionalized branched polythiophenes with either carboxylic acid (anionic, P3T