Themed collection Make polymers sustainable, why and how?

4 items
Open Access Tutorial Review

Advances in catalytic chemical recycling of synthetic textiles

Carmen Moreno-Marrodán, Francesco Brandi, Pierluigi Barbaro and Francesca Liguori

Catalytic chemical depolymerisation is an emerging technology to recycle synthetic textiles and ultimately to enable a circular textile economy. Homogeneous and heterogeneous systems are reviewed.

Graphical abstract: Advances in catalytic chemical recycling of synthetic textiles
From the themed collection: Make polymers sustainable, why and how?
The article was first published on 01 Nov 2024
Green Chem., 2024, Advance Article
https://doi.org/10.1039/D4GC04768K
Download PDF Article HTML
Open Access Accepted Manuscript - Paper

Synthesis and RAFT polymerisation of hydrophobic acrylamide monomers derived from plant oils

Oliver Joseph Harris, Peter Tollington, Calum James Greenhalgh, Ryan Larder, Helen Willcock and Fiona Hatton
From the themed collection: Make polymers sustainable, why and how?
The article was first published on 21 Nov 2024
Polym. Chem., 2024, Accepted Manuscript
https://doi.org/10.1039/D4PY01100G
Download PDF
Paper

Polyurethane foam acidolysis with carboxylic acids: acid structure dictates N-containing product distribution and kinetics

Zach Westman, Manasa Perikala, Xinyi Wu, Kelsey Richardson, Christopher S. Letko, Vojtech Vlcek, Phillip Christopher and Mahdi M. Abu-Omar

Spectroscopic characterization and kinetic studies elucidate the influence of dicarboxylic acid (DCA) structure on the formation of amide/imide products during chemical recycling of a flexible polyurethane foam (PUF).

Graphical abstract: Polyurethane foam acidolysis with carboxylic acids: acid structure dictates N-containing product distribution and kinetics
From the themed collection: Make polymers sustainable, why and how?
The article was first published on 09 Nov 2024
Polym. Chem., 2024, Advance Article
https://doi.org/10.1039/D4PY01116C
Download PDF Article HTML
Accepted Manuscript - Paper

[Ru]-Catalyzed Olefin Metathesis and Ethenolysis for the Synthesis and Recycling of Bio-Based Polycarbonates and Polycyanurates

Dana M. Pinson, Francesca D. Eckstrom, Gregory S. Ostrom, K. Randall McClain, Lawrence Baldwin and Benjamin Grant Harvey
From the themed collection: Make polymers sustainable, why and how?
The article was first published on 04 Nov 2024
Polym. Chem., 2024, Accepted Manuscript
https://doi.org/10.1039/D4PY00940A
Download PDF
4 items

About this collection

It is estimated that more than 300 million tons of synthetic polymeric materials are being produced every year and most are made from petroleum-based feedstocks. As the global consumption of polymers increases each year, this puts an unsustainable demand on our finite and non-renewable fossil fuel resources. In addition, the ever-growing quantity of polymers becoming waste at the end of their life presents serious environmental problems due to their persistence and potential ecotoxicity. This themed collection showcases cutting-edge research and advancements in developing more sustainable methods to tackle these global challenges.

The collection includes (but is not limited to) green synthetic approaches to polymers, polymers derived from renewable monomers/feedstock and agricultural waste, bio-based vitrimers, thermosets and resins, Life cycle analysis of polymers, upcycling end-of-life polymers and machine learning for sustainable polymers.

Guest Edited by: Maiyong Zhu (Jiangsu University), Gerard Lligadas (Universitat Rovira i Virgili), Fiona L. Hatton (Loughborough University), Garret Miyake (Colorado State University), and Antoine Buchard (University of York).

Spotlight

Advertisements