Themed collection Polymer Chemistry 15th Anniversary Collection

46 items
Review Article

Emerging trends in the chemistry of polymeric resists for extreme ultraviolet lithography

Patterning materials have advanced significantly to achieve high-resolution fabrication of integrated circuits for extreme ultraviolet (EUV) lithography. Emerging trends in the chemistry of polymeric resists for EUV lithography are summarized.

Graphical abstract: Emerging trends in the chemistry of polymeric resists for extreme ultraviolet lithography
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Review Article

Strategies to prepare polymers with cleavable linkages releasing active agents in acidic media

Hydrolysis stability of labile linkages in polymers can be tuned through careful selection of substituent groups near these linkages to selectively release active substances.

Graphical abstract: Strategies to prepare polymers with cleavable linkages releasing active agents in acidic media
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Review Article

Green perspective drives the renaissance of anionic diene polymerization

Polymers based on 1,3-diene monomers play a pivotal role in many commercial elastomers and thermoplastic elastomers. This review summarizes the state of the art and recent developments in the living anionic polymerization of dienes.

Graphical abstract: Green perspective drives the renaissance of anionic diene polymerization
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Communication

Solvent quality shape control in continuous flow block copolymer self-assembly

The influence of solvent quality on block copolymer self assembly is studied in detail using SANS online monitoring.

Graphical abstract: Solvent quality shape control in continuous flow block copolymer self-assembly
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Communication

The CF3TMS adduct of anthraquinone as a monomer for making polymers with potential as separation membranes

The CF3TMS adduct of anthraquinone reacts with diphenyl ether via a superacid-catalysed step-growth polymerisation to give a polymer (BTFMA-DPE) with promise for making gas separation membranes.

Graphical abstract: The CF3TMS adduct of anthraquinone as a monomer for making polymers with potential as separation membranes
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Communication

Radical promoted cationic RAFT polymerization by photo electron transfer reaction

A radical promoted cationic reversible addition–fragmentation chain transfer (RAFT) polymerization of various vinyl ethers via photo electron transfer reaction was developed and applied in photocuring.

Graphical abstract: Radical promoted cationic RAFT polymerization by photo electron transfer reaction
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Communication

Creep resistance in doubly crosslinked dynamic covalent networks

This work demonstrates that incorporating Janus-faced supramolecular moieties in vinylogous urethane vitrimers improved dimensional stability while conserving the hallmark vitrimer property of reprocessability.

Graphical abstract: Creep resistance in doubly crosslinked dynamic covalent networks
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Diversified synthesis of poly(sulfonyl isourea)s by multicomponent polymerizations of isocyanides, sulfonyl azides, and alcohols/phenols

A novel multicomponent polymerization strategy using diverse monomer combinations of isocyanides, sulfonyl azides, and alcohols/phenols was developed to synthesize thermally and morphologically stable and heteroatom-rich poly(sulfonyl isourea)s.

Graphical abstract: Diversified synthesis of poly(sulfonyl isourea)s by multicomponent polymerizations of isocyanides, sulfonyl azides, and alcohols/phenols
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Control over membrane fluidity and biophysical properties of synthetic terpolymer stabilized complex coacervates

Cell membranes are vital barriers that regulate the composition of the intracellular environment and facilitate communication processes essential for cellular function and survival.

Graphical abstract: Control over membrane fluidity and biophysical properties of synthetic terpolymer stabilized complex coacervates
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Accepted Manuscript - Paper

Synthesis of high molar mass all-(meth)acrylic thermoplastic elastomers by photo-iniferter RAFT polymerisation

From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

An efficient and economical degradation strategy for epoxy thermosets based on a low-cost transesterification catalyst

Epoxy thermoset materials are widely used in electrical engineering, but it is a challenge to degrade and recycle traditional epoxy thermoset wastes. In this work, an effective method was proposed to recycle anhydride-cured epoxy thermoset wastes.

Graphical abstract: An efficient and economical degradation strategy for epoxy thermosets based on a low-cost transesterification catalyst
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Accepted Manuscript - Paper

Rational Decoration of Porous Organic Polymers with Silver Nanoparticles for Strategic Reduction of Hazardous Nitroaryl Compounds

From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Protic poly(diallylmethylammonium) poly(ionic liquid) proton exchange membranes with low fluorine content

Towards PFAS-free high-conducting proton exchange membranes based on poly(ionic liquid)s.

Graphical abstract: Protic poly(diallylmethylammonium) poly(ionic liquid) proton exchange membranes with low fluorine content
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Polymer chemistry informed neural networks (PCINNs) for data-driven modelling of polymerization processes

A method for training neural networks to predict the outcome of polymerization processes is described that incorporates fundamental chemical knowledge. This permits generation of data-driven predictive models with limited datasets.

Graphical abstract: Polymer chemistry informed neural networks (PCINNs) for data-driven modelling of polymerization processes
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Acrylate–methacrylate radical copolymerization kinetics of sparingly water-soluble monomers in polar and nonpolar solvents

The influence of solvent on radical copolymerization kinetics is studied to provide insight to emulsion polymerization systems.

Graphical abstract: Acrylate–methacrylate radical copolymerization kinetics of sparingly water-soluble monomers in polar and nonpolar solvents
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Effect of interfacial local conformation of polymer chains on adhesion strength

The aggregation states of polymer chains at solid interfaces are strongly related to their adhesion properties.

Graphical abstract: Effect of interfacial local conformation of polymer chains on adhesion strength
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Expanding the poly(2-oxazoline) block copolymer possibilities through nitroxide mediated polymerisation

In recent years, poly(2-oxazoline)s (POx) have become a sought-after biomaterial to replace PEG. Endcapping POx with BlocBuilder MA enables copolymerization with a variety of vinylic monomers, producing unique POx-vinyl block copolymer combinations.

Graphical abstract: Expanding the poly(2-oxazoline) block copolymer possibilities through nitroxide mediated polymerisation
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Heterogenous catalysis for oxygen tolerant photoredox atom transfer radical polymerization and small-molecule dehalogenation

Heterogeneous photocatalysts (PCs) have garnered attention for their sustainability and cost-effectiveness.

Graphical abstract: Heterogenous catalysis for oxygen tolerant photoredox atom transfer radical polymerization and small-molecule dehalogenation
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

A facile and versatile platform for preparing uniform π-conjugated nanofibers with controlled length and varying shells

A versatile and facile platform is developed for the generation of uniform π-conjugated nanofibers with controlled length and varying shells by the combination of pentafluorophenyl ester chemistry and a self-seeding strategy.

Graphical abstract: A facile and versatile platform for preparing uniform π-conjugated nanofibers with controlled length and varying shells
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Mechanistic insights into ortho-blocked and ortho-free vitrimeric polybenzoxazines incorporating dynamic Schiff linkages for closed-loop recyclability

Understanding the effect of ortho-blocked and ortho-free vitrimeric polybenzoxazines incorporating Schiff chemistry for close loop recyclability.

Graphical abstract: Mechanistic insights into ortho-blocked and ortho-free vitrimeric polybenzoxazines incorporating dynamic Schiff linkages for closed-loop recyclability
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Constructing phase diagrams of block copolymers with A-block-(B-stat-C) architecture

Two libraries of BCPs with an A-block-(B-stat-C) architecture having hydroxy and methacrylate pendant groups are synthesized. Constructed phase diagrams reveal that small changes in polymer composition significantly impact the morphological behavior.

Graphical abstract: Constructing phase diagrams of block copolymers with A-block-(B-stat-C) architecture
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Sulfur-doped anthanthrenes as effective organic photocatalysts for metal-free ATRP and PET-RAFT polymerization under blue and green light

A new family of photoredox catalysts, sulfur-doped anthanthrenes (SDAs), have been successfully developed for metal-free O-ATRP and PET-RAFT polymerization under visible light and even green light.

Graphical abstract: Sulfur-doped anthanthrenes as effective organic photocatalysts for metal-free ATRP and PET-RAFT polymerization under blue and green light
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Imide-yne click polymerization: a new and versatile tool for the toolbox of X-yne click polymerization

The imide-yne reaction is demonstrated as a new and robust method to produce a variety of polyimide-based polymers, expanding the toolkit of X-yne click polymerizations based on activated alkynes.

Graphical abstract: Imide-yne click polymerization: a new and versatile tool for the toolbox of X-yne click polymerization
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

A minor difference in the hydrogen-bonding group structure has a major impact on the mechanical properties of polymers

We have discovered that the mechanical properties of norbornene-based random copolymers can be greatly altered by making subtle differences in the placement of hydrogen-bonding groups within the repeat unit structure.

Graphical abstract: A minor difference in the hydrogen-bonding group structure has a major impact on the mechanical properties of polymers
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Photoinduced morphology change in ionic supramolecular block copolymer

The light-induced conformational change in the chain-end group chemistry substantially alters the ionic junctions, leading to a phase structural difference from hexagonally packed cylinders (HEX) to lamellae (LAM) in the solid-state.

Graphical abstract: Photoinduced morphology change in ionic supramolecular block copolymer
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Insights into hydrophobic (meth)acrylate polymers as coating for slow-release fertilizers to reduce nutrient leaching

To solve the problem of the low utilization rate of fast-release water-soluble fertilizers and to minimize their environment impact, slow- release fertilizers have emerged as a sustainable solution to limit their losses and improve crop production.

Graphical abstract: Insights into hydrophobic (meth)acrylate polymers as coating for slow-release fertilizers to reduce nutrient leaching
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Chemical doping-assisted shape transformation of block copolymer particles

Iodine-mediated chemical modification approach was developed for the facile shape transformation of block copolymer colloidal particles.

Graphical abstract: Chemical doping-assisted shape transformation of block copolymer particles
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Xylose-derived thionocarbamates as a synthetic handle towards a functional platform of sugar-based polymers

The derivatisation of D-xylose with potassium thiocyanate, then reactivity with alkyl bromides, is presented as a versatile synthetic handle towards functional synthetic carbohydrate polymers, including via post-polymerisation modifications.

Graphical abstract: Xylose-derived thionocarbamates as a synthetic handle towards a functional platform of sugar-based polymers
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Boron–boron bonds: boldly breaking boundaries towards amine- and peroxide-free 2K radical polymerization

Free radical polymerization (FRP) is one of the most important tools for the production of polymer materials.

Graphical abstract: Boron–boron bonds: boldly breaking boundaries towards amine- and peroxide-free 2K radical polymerization
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Low dielectric polymers at high frequency with bulky adamantane groups as the linker

Two monomers with adamantane and thermo-crosslinkable benzocyclobutene (BCB) groups have been successfully synthesized. These two monomers can be cured to form polymers with low dielectric properties at a high frequency of 10 GHz.

Graphical abstract: Low dielectric polymers at high frequency with bulky adamantane groups as the linker
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Vat photopolymerization using catalytic chain transfer polymerization (CCTP) derived reactive oligomers to influence mechanical properties

ω-Vinyl terminated reactive oligomers of 2-ethylhexyl methacrylate and poly(ethylene glycol)methacrylate (PEGMA) were synthesized via CCTP and subsequent addition–fragmentation chain transfer (AFCT) polymerization.

Graphical abstract: Vat photopolymerization using catalytic chain transfer polymerization (CCTP) derived reactive oligomers to influence mechanical properties
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Tuning nanoparticles’ internal structure: fluorinated single-chain nanoparticles (SCNPs) generated by chain collapse of random copolymers

We have prepared single chain nanoparticles (SCNPs) with fluorinated internal compartments by chain collapse of copolymers prepared via RAFT. Selective labels prove formation of nanosized compartments using fluorescence spectroscopy

Graphical abstract: Tuning nanoparticles’ internal structure: fluorinated single-chain nanoparticles (SCNPs) generated by chain collapse of random copolymers
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Radical polymerisation and thiol–ene post-polymerisation functionalisation of terpenoid acrylates in conventional and renewably sourced organic solvents

Geranyl acrylate has been synthesized and polymerized by various radical polymerisation techniques.

Graphical abstract: Radical polymerisation and thiol–ene post-polymerisation functionalisation of terpenoid acrylates in conventional and renewably sourced organic solvents
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Design of poly(N-isopropylacrylamide) coated MnO2 nanoparticles for thermally regulated catalytic decomposition of H2O2

We report the synthesis of thermoresponsive poly(N-isopropylacrylamide) coated manganese dioxide nanoparticles for the catalytic decomposition of hydrogen peroxide (H2O2), with the goal of developing a temperature-controlled catalytic system.

Graphical abstract: Design of poly(N-isopropylacrylamide) coated MnO2 nanoparticles for thermally regulated catalytic decomposition of H2O2
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Comparison of the hydrophilicity of water-soluble poly(2-alkyl-2-oxazoline)s, poly(2-alkyl-2-oxazine)s and poly(2,4-dialkyl-2-oxazoline)s

The hydrophilicity of a series of water-soluble poly(cyclic imino ether)s (PCIE) was systemically ranked to enable informed decision-making about the choice of PCIE for specific applications in the future.

Graphical abstract: Comparison of the hydrophilicity of water-soluble poly(2-alkyl-2-oxazoline)s, poly(2-alkyl-2-oxazine)s and poly(2,4-dialkyl-2-oxazoline)s
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Influence of architectural design on the thermoresponsive properties of pyrrolidone-based terpolymers

Investigation of terpolymers based on two pH-responsive and thermoresponsive monomers. The effect of the position of the monomers on the thermoresponsive properties in aqueous solutions is demonstrated.

Graphical abstract: Influence of architectural design on the thermoresponsive properties of pyrrolidone-based terpolymers
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

A one-pot approach towards polycarbonate-b-polyester block copolymers via chemoselective polymerization catalyzed by a one-component phosphonium borane Lewis pair

Chemoselective polymerization from a mixture of L-LA, CHO and CO2 enables the synthesis of PLLA, PCHC or PCHC-b-PLLA achieved by PBB-Br. The chemoselectivity depends on the nature of the growing polymer chain end.

Graphical abstract: A one-pot approach towards polycarbonate-b-polyester block copolymers via chemoselective polymerization catalyzed by a one-component phosphonium borane Lewis pair
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Effect of pH on the incorporation of acrylic acid units in the core of polymer nanoparticles prepared by PISA and on their morphology

The molar fraction and ionization of acrylic acid (αAA) in the monomer feed affect the chemical composition, the composition profile and the particle morphology in PISA.

Graphical abstract: Effect of pH on the incorporation of acrylic acid units in the core of polymer nanoparticles prepared by PISA and on their morphology
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Alkaline stability of pendant C2-protected poly(imidazolium)s

Synthesis of polycations with C2-sterically protected imidazolium pendant groups incorporated via an olefinic backbone accompanied by accelerated hydroxide-promoted degradation studies.

Graphical abstract: Alkaline stability of pendant C2-protected poly(imidazolium)s
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Novel thermal initiator systems for radical induced cationic frontal polymerization

Frontal polymerization is an extremely efficient and rapid method for producing bulk polymers, characterized by a self-sustaining curing front that propagates throughout the resin.

Graphical abstract: Novel thermal initiator systems for radical induced cationic frontal polymerization
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Unprecedented associative exchange in CO2-sourced cyclic S,O-acetal-based covalent adaptable networks

An unexplored associative dynamic exchange reaction between CO2-sourced cyclic S,O-acetals and thiolates was investigated and utilized to create covalent adaptable networks suitable for the production of healable coatings.

Graphical abstract: Unprecedented associative exchange in CO2-sourced cyclic S,O-acetal-based covalent adaptable networks
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

In situ PET-RAFT polymerization to prepare guanidine-and-carbohydrate modified ZnO nanoparticles

ZnO–polymer core–shell nanoparticles were successfully prepared using a simple in situ open-to-air PET-RAFT method.

Graphical abstract: In situ PET-RAFT polymerization to prepare guanidine-and-carbohydrate modified ZnO nanoparticles
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Unsaturated sulfur-containing polymers from modular alcohol click chemistry

A modular and efficient click reaction for connecting primary and secondary alcohols with activated alkynes via carbonyl sulfide (COS) was developed. Polythiocarbonates were synthesized by the step-wise polyaddition of diols, dipropiolates, and COS.

Graphical abstract: Unsaturated sulfur-containing polymers from modular alcohol click chemistry
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Open Access Paper

Ring-opening (co)polymerization of chiral seven-membered lactones mediated by achiral yttrium catalysts: insights into the catalyst stereocontrol by mass spectrometry

The ROCOP of equimolar mixtures of (R)-CLnBu/(S)-CLMe enabled the assessment of the ROP stereocontrol ability of yttrium catalysts through the degree of alternation via detailed mass spectrometric analyses.

Graphical abstract: Ring-opening (co)polymerization of chiral seven-membered lactones mediated by achiral yttrium catalysts: insights into the catalyst stereocontrol by mass spectrometry
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Light-driven folding of single polymer chains via metal-complexation

We introduce a light-driven methodology (λmax = 365 nm) to fold single polymer chains into single chain nanoparticles (SCNPs) via metal-complexation.

Graphical abstract: Light-driven folding of single polymer chains via metal-complexation
From the themed collection: Polymer Chemistry 15th Anniversary Collection
Paper

Loop to linear: exploring the impact of corona topology on the properties of self-assembled polymer nanoparticles

Cyclic block copolymers with photo-cleavable linkers were prepared, allowing looped-to-linear corona transformations via UV-induced post-assembly modification, and showcasing their versatility as topology-tuned drug delivery systems.

Graphical abstract: Loop to linear: exploring the impact of corona topology on the properties of self-assembled polymer nanoparticles
From the themed collection: Polymer Chemistry 15th Anniversary Collection
46 items

About this collection

The first ever articles in Polymer Chemistry were published in 2009 with the first issue of the journal published in January 2010. As part of the celebrations for Polymer Chemistry’s 15th Anniversary, we are delighted to introduce to you our 15th Anniversary Collection. Featuring high quality research and review articles from some of the top researchers in polymers, we hope you enjoy reading this special collection.

New articles will be added to this collection as they are published.

We would like to thank all of our authors, reviewers, and readers for your incredible support since the launch of Polymer Chemistry and we look forward to seeing what developments the next 15 years will bring!


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