Sulfur‐Containing Polymers

Kultys, Anna

doi:10.1002/0471440264.pst355.pub2

Cited by 27 publications

(24 citation statements)

References 409 publications

(386 reference statements)

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“…18 Moreover, sulfur-containing polymers exhibit biocompatibility and have shown potential in metal and bacterial adhesion. 19,20 The presence of sulfur atoms in the backbone of polymers may also accelerate degradation under appropriate conditions (e.g. under UV radiation).…”

Section: Introductionmentioning

confidence: 99%

Polymers from sugars and CS₂: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

McGuire

Buchard

2021

Polym. Chem.

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Section: Introductionmentioning

confidence: 99%

Polymers from sugars and CS₂: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

McGuire

Buchard

2021

Polym. Chem.

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“…The polycondensation of disulfonyl chlorides with diphenols has been used in the synthesis of aromatic poly(sulfonate ester)s which possess interesting physical, chemical, electrical and thermal properties. 33,34 However, the number-average molecular weights of the resulting polymers tend to be rather low (ranging from 2,000 to 16,000 g/mol) and the dispersities high (up to 29). These conditions also often require a phasetransfer catalyst and produce stoichiometric amounts of salt byproducts.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of poly(sulfonate ester)s by ADMET polymerization

et al. 2014

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Many hydrocarbon polymers containing heteroatom defects in the main chain have been investigated as degradable polyethylene-like materials, including aliphatic polyesters. Here, acyclic diene metathesis (ADMET) polymerization was used for the synthesis of aliphatic poly(sulfonate ester)s. The requisite sulfonate ester containing α,ω-diene monomers with varying numbers of methylene groups were synthesized, and their polymerization in the presence of ruthenium-N-heterocyclic (Ru-NHC) alkylidene catalysts was studied. A clear negative neighboring group effect (NNGE) was observed for shorter dienes , either inhibiting polymerization or resulting in low-molecular-weight oligomers. The effect was absent when undec-10-en-1-yl undec-10-ene-1-sulfonate was employed as the monomer, and its ADMET polymerization afforded polymers with appreciable number-average molecular weights of up to 37,000 g/mol and a dispersity Đ of 1.8. These polymers were hydrogenated to afford the desired polyethylene-like systems. The thermal and morphological properties of both saturated and unsaturated polymers were investigated. The incorporation of sulfonate ester groups in the polymer backbone offers an interesting alternative to other heteroatoms and helps further the understanding of the effects of these defects on the overall polymer properties.

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“…Poly(thiourethane)s, poly(thioester)s and poly(thiocarbonate)s have been synthesized and investigated mainly as potential plastics with high thermal and chemical resistance, as well as with high refractive index for optical applications (i.e., lenses and optical fibers) [1,[4][5][6][7].…”

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New thermoplastic poly(thiourethane-urethane) elastomers based on hexane-1,6-diyl diisocyanate (HDI)

Rogulska

Kultys

Olszewska

2013

J Therm Anal Calorim

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Two series of new thermoplastic poly(thiourethane-urethane) elastomers (EPTURs), with different hardsegment content (40-60 wt%), were synthesized by a onestep melt polymerization from poly(oxytetramethylene) diol (PTMO) of M n = 1,000 g mol -1 or poly(hexamethylene carbonate) diol (PHCD) of M n = 860 g mol -1 as a soft segment, hexane-1,6-diyl diisocyanate and (methylenedi-1,4-phenylene)dimethanethiol as a chain extender at the NCO/(OH ? SH) molar ratio of 1. The structures of all the EPTURs were examined by Fourier transform infrared spectroscopy (FTIR), atomic force microscopy and X-ray diffraction analysis. Their thermal behavior was investigated by means of differential scanning calorimetry and thermogravimetric analysis (TG). For the chosen polymers the gaseous products evolved during the decomposition process were analyzed by TG-FTIR. Moreover, physicochemical, adhesive and tensile properties as well as Shore A/D hardness were determined. The resulting highmolecular-mass EPTURs were stable up to 254-262°C, as measured by the temperature of 1 % mass loss. They decomposed in three or four stages. The main decomposition products were carbonyl sulfide, isocyanate, carbon dioxide, aromatic hydrocarbons as well as aliphatic ethers and aldehydes (in PTMO series) and alcohols (in PHCD series). All the polymers showed partially crystalline structures, associated with crystallization of thiourethane hard segments. Their melting temperatures were in the range of 184-186°C. The PTMO series EPTURs exhibited better low-temperature properties (glass-transition temperature in the range of -64 to -44 vs. -26 to -22°C), but poorer tensile strengths (20-28 vs. 37-43 MPa). These EPTURs showed improved adhesive properties in comparison with their polyurethane analogs.

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Sulfur‐Containing Polymers

Cited by 27 publications

References 409 publications

Polymers from sugars and CS₂: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

Polymers from sugars and CS₂: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

Synthesis of poly(sulfonate ester)s by ADMET polymerization

New thermoplastic poly(thiourethane-urethane) elastomers based on hexane-1,6-diyl diisocyanate (HDI)

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Sulfur‐Containing Polymers

Cited by 27 publications

References 409 publications

Polymers from sugars and CS2: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

Polymers from sugars and CS2: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

Synthesis of poly(sulfonate ester)s by ADMET polymerization

New thermoplastic poly(thiourethane-urethane) elastomers based on hexane-1,6-diyl diisocyanate (HDI)

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Product

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Polymers from sugars and CS₂: ring opening copolymerisation of a d-xylose anhydrosugar oxetane

Polymers from sugars and CS₂: ring opening copolymerisation of a d-xylose anhydrosugar oxetane