Synthesis and properties of anthracene containing polyethers

Sinigersky, Vesselin; Müllen, Kläus; Klapper, Markus; Schopov, Ivan

doi:10.1002/1521-3935(20000701)201:11<1134::aid-macp1134>3.0.co;2-f

“…In addition to anthracene-based conjugated polymers, increasing attention has been recently paid to nonconjugated polymers with anthracene units in the main chain, such as poly-(trimethyleneanthrylene)s, 8,9 poly(octamethyleneanthrylene)s, 10 and poly(9,10-oxymethyleneanthrylene)s. 11 Nonconjugated polymer having anthracene units linked in the 9,10-position with flexible alkyl chains was reported to afford paramagnetism by doping with iodine and enhanced electrical conductivity. 11 Various polyamides, 12,13 polyesters, 14,15 polyethers, 14 and polyurethanes 13 containing anthracene units in the main chain have been synthesized by several groups. Much attention has been also paid to anthracene-based polymers and molecules having an additional optoelectronic component, such as triphenylamine, [16][17][18][19] carbazole, [20][21][22] and phenothiazine, 23,24 because the combination of two distinct electronic functionalities in a single system provides a great variety of photophysical and optoelectronic properties.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Optoelectronic Properties of Alternating Copolymers Containing Anthracene Unit in The Main Chain by Radical Ring-Opening Polymerization

Mori

¹

,

Tando

²

,

Tanaka

³

2010

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Novel alternating copolymers composed of anthracene moiety and halostyrene unit were synthesized by ring-opening polymerization of cyclic monomers, 10-methylene-9,10-dihydroanthryl-9-spirop-chlorophenylcyclopropane and its bromo derivative. Reversible addition-fragmentation chain transfer and conventional free radical polymerizations were employed for the purpose. In both cases, the ring-opening polymerization proceeded predominantly to afford alternating copolymer containing anthracene unit in the main chain. Incorporations of optoelectronic groups, involving diphenylamine, carbazole, and phenothiazine, on the halostyrene moieties of the alternating copolymers were conducted by palladium-catalyzed reactions. Novel nonconjugated copolymers having perfect alternating structures were obtained, in which the alternate arrangement of two distinct electronic functionalities is formed owing to the ring-opening polymerization system. Resulting anthracene-based alternating copolymers having two distinct electronic functionalities exhibited characteristic fluorescence resonance energy transfer, as confirmed by UV-vis and fluorescence spectra.

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“…Furthermore, the anthracene-based nonconjugated polymers afforded paramagnetism by doping with iodine and enhanced electrical conductivity. 14 Various polyamides, 15,16 polyesters, 17,18 polyethers, 17 and polyurethanes 16 containing anthracene units in the main chain have been synthesized so far. On the other hand, the control of their molecular weights, polydispersity, composition, and polymer structure is difficult because these polymers are synthesized by stepwise polymerization.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Anthracene-containing polymers have attracted significant research interest, due to their promising features as fluorescent labels, photon harvesters, and optoelectronic applications (e.g., organic light emitting diodes, organic field-effect transistors, photovoltaics). − Among them, conjugated polymers containing anthracene units in the main chain can be readily modified to optimize their optoelectronic properties by adjusting the polymer structure (e.g., the elongation of conjugated bonding, incorporation of substituent groups into the anthracene unit, and so on), potentially bringing in the advantages for the optoelectronic applications. − In addition to the large variety of anthracene-based conjugated polymers, nonconjugated polymers with anthracene units in the main chain linked at the 9,10-positions with flexible alkyl chains, such as poly(trimethyleneanthrylene)s, , poly(octamethyleneanthrylene)s, and poly(9,10-oxymethyleneanthrylene)s, have been reported as well. Furthermore, the anthracene-based nonconjugated polymers afforded paramagnetism by doping with iodine and enhanced electrical conductivity .…”

Section: Introductionmentioning

confidence: 99%

“…Anthracene-containing polymers have attracted significant research interest, due to their promising features as fluorescent labels, photon harvesters, and optoelectronic applications (e.g., organic light emitting diodes, organic field-effect transistors, photovoltaics). − Among them, conjugated polymers containing anthracene units in the main chain can be readily modified to optimize their optoelectronic properties by adjusting the polymer structure (e.g., the elongation of conjugated bonding, incorporation of substituent groups into the anthracene unit, and so on), potentially bringing in the advantages for the optoelectronic applications. − In addition to the large variety of anthracene-based conjugated polymers, nonconjugated polymers with anthracene units in the main chain linked at the 9,10-positions with flexible alkyl chains, such as poly(trimethyleneanthrylene)s, , poly(octamethyleneanthrylene)s, and poly(9,10-oxymethyleneanthrylene)s, have been reported as well. Furthermore, the anthracene-based nonconjugated polymers afforded paramagnetism by doping with iodine and enhanced electrical conductivity . Various polyamides, , polyesters, , polyethers, and polyurethanes containing anthracene units in the main chain have been synthesized so far.…”

Section: Introductionmentioning

confidence: 99%

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Polymers Composed of Alternating Anthracene and Pyridine Containing Units by Radical Ring-Opening Polymerization: Controlled Synthesis, Optical Properties, and Metal Complexes

Nakabayashi

¹

,

Inoue

²

,

Abiko

³

et al. 2013

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Novel polymers composed of alternating anthracene and pyridine containing units were synthesized by radical ring-opening polymerization of pyridine-containing cyclic monomers via reversible addition− fragmentation chain transfer (RAFT) process. The ring-opening polymerization proceeded predominantly to afford well-defined polymers (M w /M n ∼ 1.30), which exhibited the characteristic absorption and fluorescence due to the anthracene unit. On the other hand, fluorescence quenching was observed in chloroform and acidic aqueous solutions. The quenching was explained by charge transfer from the excited anthracene units to the coordinated or protonated pyridine units. Additionally, fluorescence quenching independent of external ambient conditions was conducted by quaternization. In the thin film state, the obtained polymers exhibited fluorescence due to the formation of excimers. The formation of complexes between the anthracene-containing polymers and metal species (Zn, Cu, and Co) led to the change in the optical properties compared to those of pristine polymers. These results demonstrate that the unique optical properties could be developed under various conditions due to the interactions between the anthracene and pyridine units in the well-defined polymers.

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“…Anthracene‐containing polymers have attracted significant research interest, because of their attractive features as fluorescent labels, photon harvesters, and electro‐ and photoluminescent materials. In addition to conjugated polymers with anthracene units in the main chains, such as poly(anthrylene)s,9, 10 poly(anthrylenevinylene) s,11–13 and poly(anthryleneethynylene)s,14, 15 considerable interest has been devoted to non‐conjugated polymers, in which the anthracene units are linked in the 9,10‐position with flexible alkyl chains 16–19. In contrast, various block copolymers having anthracene moieties in the side chain have been recently synthesized by controlled radical polymerization methods 20–23.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, Assembled Structures, and Optoelectronic Properties of Amphiphilic Block Copolymers Containing Anthracene Units in the Main Chain

Mori

¹

,

Tanaka

²

2011

Macro Chemistry & Physics

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Novel amphiphilic block copolymers containing the anthracene unit in the main chain are synthesized by reversible addition‐fragmentation chain transfer (RAFT) polymerization of a cyclic monomer, 10‐methylene‐9,10‐dihydroanthryl‐9‐spirophenylcyclopropane (MDS). A hydrophilic macro‐chain transfer agent is prepared by RAFT polymerization of 2‐hydroxyethyl acrylate (HEA). The polymerizations of MDS using the poly(HEA) afford amphiphilic block copolymers, in which the hydrophobic poly(MDS) segment has a perfectly alternating structure composed of an anthracene unit and a styrene unit, owing to the ring‐opening polymerization system. Characteristic assembled structures and optoelectronic properties of the amphiphilic block copolymers are investigated in various selective solvents.

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Synthesis and properties of anthracene containing polyethers

Cited by 15 publications

References 19 publications

Synthesis and Optoelectronic Properties of Alternating Copolymers Containing Anthracene Unit in The Main Chain by Radical Ring-Opening Polymerization

Synthesis and Optoelectronic Properties of Alternating Copolymers Containing Anthracene Unit in The Main Chain by Radical Ring-Opening Polymerization

Polymers Composed of Alternating Anthracene and Pyridine Containing Units by Radical Ring-Opening Polymerization: Controlled Synthesis, Optical Properties, and Metal Complexes

Synthesis, Assembled Structures, and Optoelectronic Properties of Amphiphilic Block Copolymers Containing Anthracene Units in the Main Chain

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