Poly(ether sulfone)s using a rigid dibenzothiophene dioxide heterocycle

Kortan, Adam M.; Cannizzaro, Randall J.; Robb, Maxwell J.; Knauss, Daniel M.

doi:10.1002/pola.28197

Cited by 7 publications

(3 citation statements)

References 34 publications

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“…Sulfur-containing polymers are a class of high-performance materials and have been instrumental in the development of specialty applications. While polysulfide (PSR) can be prepared directly from polycondensation, , the direct synthesis of polysulfoxide (PSO) and polysulfone (PSO2) is challenging. , However, the polymers containing sulfur centers with higher oxidation states, polysulfoxide (PSO) and polysulfone (PSO2), display desirable properties, such as thermomechanical and chemical stability. , Other polymers such as those containing phosphorous are also good examples of how the oxidation state of the main chain heteroatom can influence the properties of the polymer …”

Section: Introductionmentioning

confidence: 99%

Selective Oxidation of Polysulfide Latexes to Produce Polysulfoxide and Polysulfone in a Waterborne Environment

2021

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Polymers containing sulfur centers with high oxidation states in the main chain, polysulfoxide and polysulfone, display desirable properties such as thermomechanical and chemical stability. To circumvent their challenging direct synthesis, methods based on the oxidation of a parent polysulfide have been developed but are plagued by uncontrolled reactions, leading either to ill-defined mixtures of polysulfoxides and polysulfones or to polysulfones with reduced degrees of polymerization due to overoxidation of the polymer. We developed an alternative method to produce well-defined polysulfoxide and polysulfone in a waterborne colloidal emulsion using different oxidants to control the oxidation state of sulfur in the final materials. The direct oxidation of water-based polysulfide latexes avoided the use of volatile organic solvents and allowed for the control of the oxidation state of the sulfur atoms. Oxidation of parent polysulfides by tert -butyl hydroperoxide led to the production of pure polysulfoxides, even after 70 days of reaction time. Additionally, hydrogen peroxide produced both species through the course of the reaction but yielded fully converted polysulfones after 24 h. By employing mild oxidants, our approach controlled the oxidation state of the sulfur atoms in the final sulfur-containing polymer and prevented any overoxidation, thus ensuring the integrity of the polymer chains and colloidal stability of the system. We also verified the selectivity, versatility, and robustness of the method by applying it to polysulfides of different chemical compositions and structures. The universality demonstrated by this method makes it a powerful yet simple platform for the design of sulfur-containing polymers and nanoparticles.

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Section: Introductionmentioning

confidence: 99%

Selective Oxidation of Polysulfide Latexes to Produce Polysulfoxide and Polysulfone in a Waterborne Environment

2021

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“…The mechanical strength P1 was slightly higher than that of other polymers, which can probably be due to the higher chain stiffness of P1. Moreover, the mechanical strength of these polymers P2-P4 were higher than that of PA6T-Dupont (the tensile strength was about 50.9 MPa), 24 close to that of PA9T. 23 The result showed that the copolymers had good mechanical property.…”

Section: Mechanical Property Analysismentioning

confidence: 67%

“…into the molecular chain of poly (ether nitrile) (PEN) can improve the solubility, and at the same time can endow it new properties, such as fluorescence properties, 22 antifouling property, 21 and so forth. By introducing hydroquinone, 23 bisphenol A, 24 phenolphthalin, 25 and so forth. into the chain of poly (ether sulfone), the obtained polymer not only has good solubility but also reduces the cost.…”

Section: Introductionmentioning

confidence: 99%

Copolymers of poly(aryl ether ketone)/poly(ether ether amide) containing different numbers of methylene in the main chain: Synthesis and properties

Jiang,

Li,

Dai

et al. 2023

J of Applied Polymer Sci

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Abstract“One‐step polymerization method” was used to improve the thermal property of semi‐aromatic poly(ether ether amide) (PEEA). Firstly, a series of difluorobenzamide monomers containing different numbers of methylene were synthesized by the reaction of diamine and 4‐fluorobenzoic chloride using a facile interfacial reaction method. Then, these syntheses were conducted to react with bisphenol AP and 4,4′‐difluorobenzophenon to synthesize the novel poly(aryl ether ketone)/semi‐aromatic poly(ether ether amide) copolymers (PAEK/PEEA) with different chain lengths in the chain through nucleophilic substitution by a one‐step method. The obtained copolymers were amorphous with inherent viscosities of 0.373–0.433 dLg−1. They were found to have high glass transition temperatures (Tg) of 160–191°C, good thermal stability with 5% weight‐loss temperature (T5%) of 409–437°C. The tensile strengths of the copolymers were 65.0–75.8 MPa. The storage modulus were over 0.9 GPa at 120°C. At room temperature, the copolymers were soluble in NMP, slightly soluble in DMF, CH2Cl2, CH3Cl, indicating that the synthesized copolymers could be processed by solution method. The results of optical performance showed that the copolymers had good optical transmittance with the optical transmittance of 75.7%–86.1% at 450 nm. They have the potential to be applied as the novel heat‐resistance optical films as the novel copolymers.

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Post‐Functionalization of Fluorinated Dibenzosulfone‐Based Conjugated Polymer for Smart ‘Turn‐off’ Sensing of Cu²⁺ Ions

Maity,

Sau,

Samanta

2024

Chemistry An Asian Journal

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Post‐functionalization of conjugated polymeric backbone with various N‐containing heterocycles through nucleophilic aromatic substitution reaction (SNAr) demonstrates crucial tailoring of their photophysical properties. This study explores an approach of post‐polymerization modification of a fluorinated dibenzosulfone‐based conjugated polymer aiming to incorporate functional groups having coordinating sites to bind metal ions. The resulting polymers, namely BDT‐DBTS‐IM, BDT‐DBTS‐TR, and BDT‐DBTS‐PY, revealed successful substitution reactions with imidazole, triazole, and pyridine respectively, and showed significant changes in their absorption and emission properties. Notably, BDT‐DBTS‐IM demonstrated exceptional performance as a chemosensor, exhibiting a dramatic fluorescence turn‐off response specifically to copper ions (Cu2+) with the limit of detection of 26 nM and Stern‐Volmer quenching constant (KSV) of 8.2×105 Lmol‐1. This high selectivity and sensitivity are attributed to the ability of the imidazole group to form a stable complex with Cu2+, resulting in both static and dynamic quenching efficiently. Our findings underscore the potential of post‐polymerization modifications to significantly enhance the functionality of conjugated polymers. The ability of BDT‐DBTS‐IM to detect trace levels of copper ions with high precision highlights its practical utility in environmental and biological monitoring. This research not only demonstrates an approach for post‐polymeric modification through SNAr reaction but also opens new avenues for developing sensors.

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Poly(ether sulfone)s using a rigid dibenzothiophene dioxide heterocycle

Cited by 7 publications

References 34 publications

Selective Oxidation of Polysulfide Latexes to Produce Polysulfoxide and Polysulfone in a Waterborne Environment

Selective Oxidation of Polysulfide Latexes to Produce Polysulfoxide and Polysulfone in a Waterborne Environment

Copolymers of poly(aryl ether ketone)/poly(ether ether amide) containing different numbers of methylene in the main chain: Synthesis and properties

Post‐Functionalization of Fluorinated Dibenzosulfone‐Based Conjugated Polymer for Smart ‘Turn‐off’ Sensing of Cu²⁺ Ions

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Poly(ether sulfone)s using a rigid dibenzothiophene dioxide heterocycle

Cited by 7 publications

References 34 publications

Selective Oxidation of Polysulfide Latexes to Produce Polysulfoxide and Polysulfone in a Waterborne Environment

Selective Oxidation of Polysulfide Latexes to Produce Polysulfoxide and Polysulfone in a Waterborne Environment

Copolymers of poly(aryl ether ketone)/poly(ether ether amide) containing different numbers of methylene in the main chain: Synthesis and properties

Post‐Functionalization of Fluorinated Dibenzosulfone‐Based Conjugated Polymer for Smart ‘Turn‐off’ Sensing of Cu2+ Ions

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Post‐Functionalization of Fluorinated Dibenzosulfone‐Based Conjugated Polymer for Smart ‘Turn‐off’ Sensing of Cu²⁺ Ions