Team 1 : Polymerization catalyses and engineering
With the principle in mind that how a polymer is synthesized matters as much as which polymer is targeted, the main goal of our group is to develop alternative methodologies enabling efficient, highly chemoselective -sometimes stereoselective- reactions, and sustainable design of macromolecular compounds with a high level of control of their molar masses, dispersity, microstructure, tacticity, functionality, architecture, dimension, size and shape. Our approaches thus encompass synthetic tools, including catalysis, “controlled/living” polymerization methods, including a thorough understanding of the underlying reaction mechanisms, and polymerization processes with a special focus on those operating in dispersed media. Our essential skills thus lie at the interface of molecular chemistry, catalysis, macromolecular synthesis and materials science, which allows us to address cross disciplinary projects. Special emphasis is placed on:
- The design of activation or catalysis systems for highly selective, rapid and scalable polymerization reactions with strong potential for industrial implementation
- The development of recyclable and bio-inspired catalytic nanoreactors that can be implemented in aqueous media, while providing improved catalytic performance
- The engineering of polymers, nanoparticles and nanostructures of controlled size and shape for targeted applications
Latest publications
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High-pressure drop rates in solid-state batch one-step scCO2 foaming of acrylic polymers: A way to stabilize the structure of micro-nano foams Journal article
Haurat Margaux, Anguy Yannick, Gaborieau Cécile, Aubert Guillaume, Aymonier Cyril, Dumon Michel
Journal title: Chemical Engineering Science, Volume(s): 281, Page(s): 119099 https://hal.science/hal-04186228/document 10.1016/j.ces.2023.119099 (2023)
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On-Demand Degradation of Thioester/Thioketal Functions in Vinyl Pivalate-Derived Copolymers with Thionolactones Journal article
Ivanchenko Oleksandr, Mazières Stéphane, Harrisson Simon, Destarac Mathias
Journal title: Macromolecules, Volume(s): 56, Issue(s): 11, Page(s): 4163-4171 10.1021/acs.macromol.3c00312 (2023)
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![Functional polyesters via ring-opening copolymerization of $\alpha$–hydroxy–$\gamma$–butyrolactone and $\epsilon$-caprolactone: La[$N(SiMe_3)_2]_3$ as an efficient coordination-insertion catalyst figure](https://www.lcpo.fr/media/cache/vertical_items_list_item_66x45_inset_up/uploads/publication/image/64159e51ed230769729382.jpg?2020)
Functional polyesters via ring-opening copolymerization of $\alpha$–hydroxy–$\gamma$–butyrolactone and $\epsilon$-caprolactone: La[$N(SiMe_3)_2]_3$ as an efficient coordination-insertion catalyst Journal article
Pascouau Chloé, Wirotius Anne-Laure, Carlotti Stéphane, Cramail Henri, Peruch Frédéric
Journal title: European Polymer Journal, Volume(s): 185, Page(s): 111793 https://hal.science/hal-03975357/document 10.1016/j.eurpolymj.2022.111793 (2023)