PET-RAFT Polymerization: Mechanistic Perspectives for Future Materials

Allegrezza, Michael L.; Konkolewicz, Dominik

doi:10.1021/acsmacrolett.1c00046

Cited by 108 publications

(99 citation statements)

References 101 publications

(248 reference statements)

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“…The excited Ru(II) can therefore efficiently initiate various radical polymerizations. [ 31–33 ] Figure shows that Ru(II) rapidly triggers ammonium persulfate (APS) decomposition under visible‐light irradiation. The resultant sulfate radicals can initiate traditional radical polymerizations of typical vinyl monomers and induce the generation of active sites, e.g., hydroxyl radicals, in NPS.…”

Section: Resultsmentioning

confidence: 99%

Natural Polysaccharides as Multifunctional Components for One‐Step 3D Printing Tough Hydrogels

Luo

Zhou

Lü

et al. 2021

Macro Materials & Eng

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Natural polysaccharides (NPS) are regarded as biomolecular and structural components for preparing high‐performance tough hydrogels. But the one‐step fabrication of NPS‐containing hydrogels in seconds and the template‐free design of complicated high‐resolution structures are still significant challenges in this field. To meet these requirements, various NPS‐containing tough hydrogels are fabricated and processed into 2D/3D structures via the combination of Ru(bpy)32+‐mediated photochemistry and extrusion 3D printing technique. The whole fabrication process is one‐step, completed in tens of seconds under visible light irradiation. It is found that the used NPS plays a key role in achieving the fabrication of high‐performance structured tough hydrogels. The high reactivity of functional groups in the used NPS can shorten their gelation times. Long rigid chains of the used NPS, their hierarchical assemblies, and contrasting multinetworks benefit from the efficient dissipation of mechanical energy and enhancement of its operational stability. Strong supramolecular interactions enable hydrogel precursors to have high viscosities, therefore providing good controllability to design high‐resolution and complicated tough hydrogel structures via extrusion 3D printing. It is anticipated that this straightforward fabrication strategy and findings will open new horizons for NPS‐containing materials.

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Section: Resultsmentioning

confidence: 99%

Natural Polysaccharides as Multifunctional Components for One‐Step 3D Printing Tough Hydrogels

Luo

Zhou

Lü

et al. 2021

Macro Materials & Eng

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“…Nazim et al investigated the role of a photopolymerized polymeric thin film in constructing a copper indium gallium selenide solar cell with high efficiency [67]. The group utilized nitrogen-doped graphene quantum dots with transparency, highly emission, and UV-curable properties to fabricate highly dispersed Norland Optical Adhesive (NOA) nanocomposite-based polymeric thin films referred to as poly-QD films [67][68][69][70][71][72][73][74][75][76][77][78][79]. These flexible films served as luminescent downconversion (LDC) layers, which enhanced the function of copper indium gallium selenide solar cells.…”

Section: Applications Of Photopolymers Based On Qpismentioning

confidence: 99%

Tunable Quantum Photoinitiators for Radical Photopolymerization

Shukla¹,

Pandey

Narayan³

2021

Polymers

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This review describes the use of nanocrystal-based photocatalysts as quantum photoinitiators, including semiconductor nanocrystals (e.g., metal oxides, metal sulfides, quantum dots), carbon dots, graphene-based nanohybrids, plasmonic nanocomposites with organic photoinitiators, and tunable upconverting nanocomposites. The optoelectronic properties, cross-linking behavior, and mechanism of action of quantum photoinitiators are considered. The challenges and prospects associated with the use of quantum photoinitiators for processes such as radical polymerization, reversible deactivation radical polymerization, and photoinduced atom transfer radical polymerization are reviewed. Due to their unique capabilities, we forsee a growing role for quantum photoinitiators over the coming years.

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“…PISA achieves solvent‐economy by definition, RDRPs can be carried out in alcoholic and aqueous solvents, and photopolymerization 243 allows lower reaction temperatures. In this context, photoinitiation and photomodulation of RAFT is extensively researched 158,159,244–248 . Another issue to be addressed is deoxygenation of the reaction mixture, which is normally achieved through inert atmosphere or freeze‐pump‐thaw cycles.…”

Section: Toward “Greener” Msr Polymersmentioning

confidence: 99%

Playing construction with the monomer toy box for the synthesis of multi‐stimuli responsive copolymers by reversible deactivation radical polymerization protocols

D’Acunzo

Masci

2021

Journal of Polymer Science

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In this review article, we survey the 2016–June 2021 scientific literature on the synthesis of multi‐stimuli responsive (MSR) polymers, the main focus being on reversible deactivation radical polymerization techniques (RDRPs, also known as controlled radical polymerizations). In fact, along more than 40 years of extensive research, RDRPs have boosted the synthesis of stimuli‐responsive polymers. RDRPs are now robust, versatile, relatively user‐friendly and even interconvertible, thus allowing control over composition, sequence, and topology of polymers. Such control can afford materials with well‐defined responses to physical, chemical, and biological external stimuli. Furthermore, “click” reactions are used to combine macromolecular precursors or to introduce specific functional groups in the target structure. As a result, MSR polymers are obtained from diverse combinations of commercial or specially synthesized building blocks arranged at will into desired sequences and architectures. Thanks to this versatility, self‐assembling polymeric structures are designed either to respond to triggers and perform specific applicative tasks, or to investigate the influence of structural variables on the responsivity of polymers. The “green” trend emerging in the field of responsive polymers and RDRPs is also briefly discussed.

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PET-RAFT Polymerization: Mechanistic Perspectives for Future Materials

Cited by 108 publications

References 101 publications

Natural Polysaccharides as Multifunctional Components for One‐Step 3D Printing Tough Hydrogels

Natural Polysaccharides as Multifunctional Components for One‐Step 3D Printing Tough Hydrogels

Tunable Quantum Photoinitiators for Radical Photopolymerization

Playing construction with the monomer toy box for the synthesis of multi‐stimuli responsive copolymers by reversible deactivation radical polymerization protocols

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