Kinetic studies of the photo-degradation of poly(arylene vinylenes)

O’Neill, Luke A.J.; Lynch, Patrick; McGoldrick, Niamh; Byrne, Hugh J.; McNamara, Mary

doi:10.1016/j.jlumin.2012.04.014

Cited by 4 publications

(1 citation statement)

References 20 publications

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“…Poly(alkoxyphenylenevinylene)s and poly(2,5-dialkoxycyanoterephthalylidene) have been investigated for light emission application. , Phenylenevinylene oligomers and polymers , are known to undergo fast photochemical oxidation by singlet oxygen . To systematically study the effect of LUMO energy on photostability of conjugated polymers without the complication by different side chains, we synthesized three polymers (Chart ) with different number of cyano groups on the exocyclic double bond in PPVs: poly(2,5-didecyloxy-1,4-phenylenevinylene) or C 10 O–PPV, poly(2,5-didecyloxycyanoterephthalylidene) or CN–PPV, and poly(2,5-didecyloxy-7,8-dicyano-1,4-phenylenevinylene), DiCN–PPV.…”

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confidence: 99%

Dicyano-Substituted Poly(phenylenevinylene) (DiCN–PPV) and the Effect of Cyano Substitution on Photochemical Stability

et al. 2013

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A didecyloxy-substituted poly(phenylenedicyanovinylene), DiCN–PPV, has been synthesized. The dicyano-substituted vinylene units exist in both trans and cis (∼65:35) conformations as determined by 1H NMR analysis, and cannot be converted to all trans due to the presence of a thermodynamic equilibrium of the two conformations, in contrast to the vinylene units in regular PPVs. The unusually high cis content makes this polymer highly amorphous, very soluble in organic solvent, and highly fluorescent in the solid state with an estimated quantum yield up to 0.34, four times more fluorescent than its chloroform solution. The LUMO and HOMO energies of the new polymer were measured by cyclovoltammetry. The cyano groups in DiCN–PPV brings a decrease in LUMO energy by 0.79 eV, and makes the polymer more stable to intense white light (>20 times as strong as the sunlight) than poly(2,5-didecyloxy-1,4-phenylenevinylene), C10O–PPV, by more than 2 orders of magnitude. The excellent photochemical stability and high fluorescence quantum yield in the solid state make DiCN–PPV a good candidate for outdoor fluorescent applications such as remote optical sensing.

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Section: Introductionmentioning

confidence: 99%

Dicyano-Substituted Poly(phenylenevinylene) (DiCN–PPV) and the Effect of Cyano Substitution on Photochemical Stability

et al. 2013

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Rhodium‐Catalyzed Stitching Polymerization of 1,5‐Hexadiynes and Related Oligoalkynes

Ikeda

Shintani

2019

Angewandte Chemie

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A new mode of polymerization, rhodium‐catalyzed stitching polymerization, has been developed for the synthesis of π‐conjugated polymers with bridged repeating units from nonconjugated 1,5‐hexadiynes containing both terminal and internal alkyne moieties as monomers. The polymerization proceeded smoothly with a high degree of stitching efficiency under mild conditions, and 1,5,9‐decatriyne and 1,5,9,13‐tetradecatetrayne monomers could also be employed. The present polymerization strategy would be particularly beneficial for the synthesis of polymers consisting of a repeating unit that is difficult to prepare as a stable monomer because it does not require the use of a preformed bridged π‐conjugated monomer.

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Rhodium‐Catalyzed Stitching Polymerization of 1,5‐Hexadiynes and Related Oligoalkynes

Ikeda

Shintani

2019

Angew Chem Int Ed

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Anew mode of polymerization, rhodium-catalyzed stitching polymerization, has been developed for the synthesis of p-conjugated polymers with bridged repeating units from nonconjugated 1,5-hexadiynes containing both terminal and internal alkyne moieties as monomers.T he polymerization proceeded smoothly with ah igh degree of stitching efficiency under mild conditions,a nd 1,5,9-decatriyne and 1,5,9,13tetradecatetrayne monomers could also be employed. The present polymerization strategy would be particularly beneficial for the synthesis of polymers consisting of arepeating unit that is difficult to prepare as astable monomer because it does not require the use of ap reformed bridged p-conjugated monomer.

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Kinetic studies of the photo-degradation of poly(arylene vinylenes)

Cited by 4 publications

References 20 publications

Dicyano-Substituted Poly(phenylenevinylene) (DiCN–PPV) and the Effect of Cyano Substitution on Photochemical Stability

Dicyano-Substituted Poly(phenylenevinylene) (DiCN–PPV) and the Effect of Cyano Substitution on Photochemical Stability

Rhodium‐Catalyzed Stitching Polymerization of 1,5‐Hexadiynes and Related Oligoalkynes

Rhodium‐Catalyzed Stitching Polymerization of 1,5‐Hexadiynes and Related Oligoalkynes

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