High-Efficiency Poly(<i>p</i>-phenylenevinylene)-Based Copolymers Containing an Oxadiazole Pendant Group for Light-Emitting Diodes

Jin, Sung‐Ho; Kim, Mock-Yeon; Kim, Jin Young; Lee, Kwanghee; Gal, Yeong‐Soon

doi:10.1021/ja036955+

Cited by 192 publications

(57 citation statements)

References 34 publications

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“…The oxidation potential is derived from the onset of electrochemical p-doping, and HOMO level was calculated according to the empirical formula (E HOMO ¼ Àð½E onset ox þ 4:8Þ) (eV). 17 In the anodic scan, the onset of oxidation of PCPP-MSC occurred at 0.85 V (vs. SCE), which corresponded to the ionization potential (I p ) value of À5:65 eV. The absorption onset wavelength of PCPP-MSC was observed at 454 nm for the solid thin film, corresponding to band gap of 2.73 eV.…”

Section: Electrochemical Properties Of Polymermentioning

confidence: 94%

Synthesis and Characterization of Novel Conjugated Polymer with 4H-Cyclopenta[def]phenanthrene and the Sulfanyl Group

et al. 2009

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A novel 4H-cyclopenta [def ]phenanthrene (CPP) derivative with bis-methylsulfanyl-methylene unit was synthesized from CPP, CH 3 I, and CS 2 . The structure and absolute configuration was determined on the basis of spectroscopic analyses and X-ray diffraction. New electroluminescent polymer with bis-methylsulfanyl-methylene unit in the PCPP backbone, poly-((2,6-(4,4-bis(2-ethylhexyl)-4H-cyclopenta[def ]phenanthrene))-alt-(2,6-(4-(bis(methylsulfanyl)methylene)-4H-cyclopenta[def]-phenanthrene))) (PCPP-MSC), have been synthesized by the Suzuki coupling reaction. The bis-methylsulfanyl-methylene unit was introduced on the PCPP backbone to affect a red-shifted color change and to increase the electron affinities of the polymer. The HOMO energy level of the polymer was À5:65 eV, and the LUMO energy level was À2:92 eV. The polymer, PCPP-MSC, using this CPP derivative exhibited absorption spectra with maximum peak at 341 nm in chlorobenzene solution and at 344 nm in the solid film state. The PCPP-MSC showed two PL emission peaks at 404 and 522 nm in chloroform solution with changing concentration. As concentration was growing from 1 Â 10 À8 mol/L to 1 Â 10 À5 mol/L, the PL peak at 522 nm increased dramatically, and the complete quenching of the host emission at 404 nm was observed, since complete aggregation between the cyclopentaphenanthrene segment and the methylsulfanylmethylene unit was induced by an intermolecular interaction.

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Section: Electrochemical Properties Of Polymermentioning

confidence: 94%

Synthesis and Characterization of Novel Conjugated Polymer with 4H-Cyclopenta[def]phenanthrene and the Sulfanyl Group

et al. 2009

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“…Figure 2 shows several examples of main-chain p-conjugated copolymers for OLEDs. Main-chain p-conjugated polymers containing p-electron skeletons as side groups, e.g., PPVs having side groups of oxadiazoles, have also been developed [7,8,22].…”

Section: Polymers For Oledsmentioning

confidence: 99%

Charge-Transporting Polymers

Shirota

Kageyama

2013

Encyclopedia of Polymeric Nanomaterials

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“…Thereby, these materials are important as the active materials in a new generation of electronic and optical devices, including light-emitting devices [15,[19][20][21], photovoltaic cells [22,23], biological and chemical sensors [24,25], photo-detectors [26], optical lasers [27], field-effect transistors [28], and nonvolatile memory devices [29,30].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of a Water-Soluble Ionic Polyacetylene Derivative

et al. 2016

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A new water-soluble ionic polyacetylene was synthesized by the acid-catalyzed polymerization of 2-ethynylpyridine using acrylic acid. The polymerization proceeded well to give a high yield of polymer. The acetylenic C≡C bond stretching (2110 cm −1 ) and acetylenic ≡C-H bond stretching (3293 cm −1 ) peaks of 2-ethynylpyridine monomer were not seen in the FT-IR spectrum of polymer. The electro-optical and electrical properties of the ionic polyacetylene were measured and discussed. The resulting polymer showed strong maximum at 513 nm in the UV-Visible absorption, which is corresponding to photon energy of 2.42 eV. The energy gap width of polymer was estimated to be of 2.08 eV. It was observed that the electrochemical process of polymer is reproducible in the potential range of −1.80 to 1.60 V vs Ag/AgNO3. HOMO and LUMO levels of polymer were 4.85 eV and 2.77 eV, respectively.

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High-Efficiency Poly(p-phenylenevinylene)-Based Copolymers Containing an Oxadiazole Pendant Group for Light-Emitting Diodes

Cited by 192 publications

References 34 publications

Synthesis and Characterization of Novel Conjugated Polymer with 4H-Cyclopenta[def]phenanthrene and the Sulfanyl Group

Synthesis and Characterization of Novel Conjugated Polymer with 4H-Cyclopenta[def]phenanthrene and the Sulfanyl Group

Charge-Transporting Polymers

Synthesis and Characterization of a Water-Soluble Ionic Polyacetylene Derivative

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