Dahai Dong scite author profile

The synthesis is described of macrocyclic poly( -methylstyrene) (PAMS) by the lithium naphthalide initiated polymerization of AMS followed by high dilution end to end coupling with 1,4-bis(bromomethyl)benzene (DBX). The cyclization is carried out by simultaneous addition of tetrahydrofuran solutions of the PAMS dianion and DBX at about -100ºC. A sample of the matching linear PAMS is obtained by protonation of the PAMS dianion. The purified cycles are obtained by fractional precipitation that is monitored by size exclusion chromatograhy. A careful study of the coupling reactions carried out at high concentrations indicates that coupling is efficient and this is borne out by the ratios () of apparent molecular weights (MW's) of cycles and matching linear polymers. The values of the cycles tend to vary with MW in the same manner as was demonstrated for polystyrene and other vinyl polymers and increase from around 0.74 at MW of about 30000 to values of around 0.82 at MW of about 2500. A higher apparent value was observed for a very low MW PAMS but this sample could not be purified and analyzed adequately. As was also observed for other macrocyclic vinylpolymers, the glass transition temperatures of the cycles are MW independent above MW of about 5000 but decrease sharply at lower MW's.

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Synthesis and Characterization of a Catenated Polystyrene−Poly(2-vinylpyridine) Block Copolymer

Gan

Dong

Hogen‐Esch

2002

Macromolecules

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The synthesis, isolation, and characterization are reported of a polystyrene−poly(2-vinylpyridine) block copolymer “catenane” with a molecular weight of about 10 000 and containing about equal masses of each of the rings. This catenane is prepared by end-to-end coupling of a P2VP dianion lithium salt with 1,4-bis(bromomethylbenzene) in THF in the presence of a PS macrocycle (M p = 4500). The catenane was isolated by precipitation−extraction procedures that were optimized using a 50/50 PS-b-P2VP macrocycle as a model for the catenane. The catenane copolymer was characterized by SEC, 1H NMR, and emission (fluorescence) spectroscopy.

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Formation of macrocyclic polymers by intramolecular coupling of α,ω‐difunctional precursors. Numerical evaluations

Dong

Hogen‐Esch

Shaffer

1996

Macro Chemistry & Physics

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The end-to-end cyclization reaction of living monodisperse a,o-dianion precursors with difunctional electrophiles (EX,) in the presence of partial anion termination is described. A computer simulation was developed to establish the relationship among the initial concentration, the molecular weight of the dianion precursor, the extent of anion termination, and the yield distribution for all of the cyclic and linear polymer species. A master curve is calculated allowing the determination of the macrocycle yield as a function of MW and concentration of the dianion precursor, and degree of anion termination.

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Dahai Dong

Effects of Lithium Bromide on the Glass Transition Temperatures of Linear and Macrocyclic Poly(2-vinylpyridine) and Polystyrene

Enhanced Fluorescence of Macrocyclic Polystyrene

Synthesis and characterization of macrocyclic poly(.-methylstyrene)

Synthesis and Characterization of a Catenated Polystyrene−Poly(2-vinylpyridine) Block Copolymer

Formation of macrocyclic polymers by intramolecular coupling of α,ω‐difunctional precursors. Numerical evaluations

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