Living Cationic Ring-Opening Homo- and Copolymerization of Cyclohexene Oxide by “Dormant” Species Generation Using Cyclic Ethers as Lewis Basic Additives

Inoue, Masamichi; Kanazawa, Arihiro; Aoshima, Sadahito

doi:10.1021/acs.macromol.1c00654

Cited by 12 publications

(28 citation statements)

References 72 publications

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“…This result may be due to the change in the structure of the R group in the cationic RAFT agent after insertion of an epoxy monomer, which forms an R group with poor leaving ability and leads to uncontrolled polymerization. 35,36 Next, this photoinduced free radical-promoted cationic RAFT polymerization was considered for constructing a 3D printing system. The SLA method was adopted to accomplish our purpose.…”

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confidence: 95%

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Photoinduced Free Radical Promoted Cationic RAFT Polymerization toward “Living” 3D Printing

Zhao

Pan

et al. 2021

ACS Macro Lett.

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Three-dimensional (3D) printing utilizing controlled polymerization systems is emerging as a powerful approach to fabricate “living” objects, which can be further modified with various functionalities. Here, we report photoinduced free radical-promoted cationic reversible addition–fragmentation chain transfer (RAFT) polymerization under broad wavelengths from ultraviolet (UV) to near-infrared (NIR) light. A commercially available iron catalyst, cyclopentadienyl iron dicarbonyl dimer (Fe2(Cp)2(CO)4), was used as the photocatalyst, and several diphenyliodonium salts were examined as oxidants. Various poly(vinyl ether)s with controlled molecular weights and a narrow dispersity (1.06–1.32) were prepared through this method. Relatively high chain-end fidelity can be observed and has been demonstrated by successful chain-extension experiments. In addition, benefiting from the penetrating ability of NIR light, 3D objects with different thicknesses were achieved by employing stereolithography-based 3D printing techniques. Furthermore, the postfunctionalization of these 3D printed objects with fluorescent monomers provides a facile method to build 3D objects with complex functionality and potential applications in anticounterfeiting materials.

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confidence: 95%

“…Relatively lower molecular weights and broad MWDs were found in the polymerization of epoxy monomers (CHOs; entry 5, Table S5). This result may be due to the change in the structure of the R group in the cationic RAFT agent after insertion of an epoxy monomer, which forms an R group with poor leaving ability and leads to uncontrolled polymerization. , …”

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confidence: 99%

Photoinduced Free Radical Promoted Cationic RAFT Polymerization toward “Living” 3D Printing

Zhao

Pan

et al. 2021

ACS Macro Lett.

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“…TrBF 4 is a safe, commercialized, and inexpensive Lewis acid and has been extensively used in organic synthesis as a protection reagent or catalyst . However, the compound itself and its derivatives are much less employed in polymer synthesis. ,− Very recently, we found a derivative of TrBF 4 could induce a photo-controlled living cationic polymerization of methoxystyrene . In the present work, TrBF 4 is for the first time used to catalyze the living ROP of lactones.…”

Section: Introductionmentioning

confidence: 77%

Living Cationic Polymerization of ε-Caprolactone Catalyzed by a Metal-free Lewis Acid of Trityl Tetrafluoroborate

Wang

Chen

et al. 2023

Macromolecules

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Research on metal-free catalytic synthesis of polycaprolactone (PCL) is fueled by the many practical needs for biodegradable and biocompatible materials. In this regard, the pursuit of effective and economical catalysts as well as precise control over the polymerization has become the main challenge. Herein, we report a living cationic ring-opening polymerization of ε-caprolactone catalyzed by a safe, inexpensive, and metal-free Lewis acid of trityl tetrafluoroborate. The polymerization is initiated by alcohol or water, which is corroborated by the presence of initiator segments at the chain ends of PCL polymers via 1H NMR and matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Kinetic experiments show that polymerization is a first-order reaction to monomers. This result, together with the predictable molar mass, narrow molar-mass dispersity, and controllable chain growth and extension, confirms the synthesis to be a living polymerization. This work expands the catalytic toolbox of PCL synthesis and represents a rare example of cationic living polymerization of ε-caprolactone catalyzed by Lewis acids.

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“…Low monomer conversion can be observed in the polymerization of CHO owing to the formation of a more stable structure after the insertion of epoxy monomers in the CTA, which has poor leaving ability and leads to uncontrolled polymerization. 7,48 Next, kinetic experiments were performed to study the polymerization behavior using different concentrations of the catalyst. The semi-logarithm of the monomer concentration has a linear relationship with the polymerization time, suggesting a constant concentration of the propagating species in the polymerization (Fig.…”

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Controlled cationic polymerization using RAFT agents with selenonium cations as metal-free Lewis acids: from homogeneous to heterogeneous catalysis

Xia

Pan

et al. 2022

Polym. Chem.

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Living Cationic Ring-Opening Homo- and Copolymerization of Cyclohexene Oxide by “Dormant” Species Generation Using Cyclic Ethers as Lewis Basic Additives

Cited by 12 publications

References 72 publications

Photoinduced Free Radical Promoted Cationic RAFT Polymerization toward “Living” 3D Printing

Photoinduced Free Radical Promoted Cationic RAFT Polymerization toward “Living” 3D Printing

Living Cationic Polymerization of ε-Caprolactone Catalyzed by a Metal-free Lewis Acid of Trityl Tetrafluoroborate

Controlled cationic polymerization using RAFT agents with selenonium cations as metal-free Lewis acids: from homogeneous to heterogeneous catalysis

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