Your search keyword '"Rosselgong, Julien"' showing total 4 results

1. A comprehensive review on active chain density evaluation from swelling and insights for better accounting for insoluble particles.

Author

Delahaye, Grégoire, Redon, Adrien, Ruellan, Benoît, Jeanneau, Isabelle, Rosselgong, Julien, Guillaume, Sophie M., and Le Cam, Jean‐Benoît

Subjects

VULCANIZATION, TENSILE tests, CARBON-black, ZINC oxide, DENSITY, RUBBER

Abstract

The present study provides a state of the art on methods for evaluating active chain density of rubbers from swelling experiments. This review focuses more particularly on the effects of components that are known to limit the swelling, and which typically results in an overestimation of the active chain density. These components are commonly considered as insoluble. Different corrections dealing with the two principal insoluble components, namely zinc oxide (Zn0) and carbon black (CB) filler, are thoroughly investigated. A comparative study on the same natural rubber (NR), either filled and unfilled, vulcanized with three different vulcanization systems, is performed to evaluate the relevance of each predictive approach. The results obtained highlight their respective limitations. In particular, it is shown that the swelling ratio of unfilled and filled natural rubbers are linearly related, suggesting that fillers have no significant effect on the overall number of cross‐links formed during vulcanization. As a result, we propose a unified approach for correcting the ZnO content for unfilled NR and both the ZnO and CB contents for filled NR. By comparing with results issued from uniaxial tensile tests, it is shown that the use of a mechanical response is a relevant alternative for determining the active chain density. [ABSTRACT FROM AUTHOR]

Published

2024

2. Biopolymer‐Based Nanogels Synthesis, Characterization, and Stability for Doxorubicin Encapsulation and Delivery.

Author

Fernández‐Solís, Karla Gricelda, González, Guillermo Toriz, Ochoa, Edgar Benjamín Figueroa, Rosselgong, Julien, Mijares, Eduardo Mendizabal, and Bravo‐Anaya, Lourdes Mónica

Subjects

COLLOIDAL stability, NANOGELS, ACTIVE biological transport, MOLECULAR weights, FUNCTIONAL groups

Abstract

Nanogels are nanostructures with dimensions within the nanoscale, composed of crosslinked polymers through their functional groups. Nanogels can display sensitiveness to stimuli, such as pH or temperature. This characteristic has been used in the design of new platforms for the transport and release of active ingredients. Biopolymer‐based nanogels are of great interest due to their biodegradability, biocompatibility, nontoxicity, and among others. In this project, pH‐responsive nanogels are synthesized through a novel methodology, using two polysaccharides classified as safe, biocompatible, and easily accessible materials, i.e., chitosan (CS) and maltodextrin (MD). A reductive amination reaction between CS and partially oxidized MDs allows to synthesized MD/CS nanogels with sizes ranging from 90 ± 5 to 194 ± 40 nm and with a colloidal stability up to 7 weeks. It is found that the variation of nanogels size and charge depends on CS concentration, molecular weight, and pH, as well as on the % oxidation of the MD. As evidence of nanogels pH‐responsiveness, an increase of size and ζ‐potential is observed by decreasing the pH. This size increase is attributed to the swelling of the nanogels upon a change in pH. Finally, doxorubicin is encapsulated in MD/CS nanogels, with a loading capacity up to 57%. [ABSTRACT FROM AUTHOR]

Published

2024

3. An Arm-First Approach to Cleavable Mikto-Arm Star Polymers by RAFT Polymerization.

Author

Wei, Xiaohu, Moad, Graeme, Muir, Benjamin W., Rizzardo, Ezio, Rosselgong, Julien, Yang, Wantai, and Thang, San H.

Subjects

COPOLYMERIZATION, POLYMERS, CROSSLINKING (Polymerization), AQUEOUS solutions, HYDROPHILIC interactions, PARTICLE size determination

Abstract

Redox-cleavable mikto-arm star polymers are prepared by an 'arm-first' approach involving copolymerization of a dimethacrylate mediated by a mixture of macroRAFT agents. Thus, RAFT copolymerization of the monomers BMA, DMAEMA, and OEGMA, with the disulfide dimethacrylate cross-linker (DSDMA), bis(2-methacryloyl)oxyethyl disulfide, mediated by a 1:1:1 mixture of three macroRAFT agents with markedly different properties [hydrophilic, poly[oligo(ethylene glycol) methacrylate]-P(OEGMA)8-9; cationizable, poly[2-(dimethylamino)ethyl methacrylate]-P(DMAEMA); hydrophobic, poly( n-butyl methacrylate)-P(BMA)] provides low dispersity mikto-arm star polymers. Good control ( Đ < 1.3) is observed for the target P(DMAEMA)/P(OEGMA)/P(BMA) (3:3:1) mikto-arm star, a double hydrophilic P(DMAEMA)/P(OEGMA) (3:3) mikto-arm star and a hydrophobic P(BMA) homo-arm star. However, Đ for the target mikto-arm stars increases with an increase in either the ratio [DSDMA]:[total macroRAFT] or the fraction of hydrophobic P(BMA) macroRAFT agent. The quaternized mikto-arm star in dilute aqueous solution shows a monomodal particle size distribution and an average size of ≈145 nm. [ABSTRACT FROM AUTHOR]

Published

2014

4. Simple route to get very hydrophobic surfaces of fibrous materials with core-shell latex particles.

Author

Nguyen, David, Chambon, Pierre, Rosselgong, Julien, Cloutet, Eric, Cramail, Henri, and Ravaine, Serge

Subjects

POLYURETHANES, URETHANES, ACRYLATES, CYCLOHEXANE, CYCLOHEXENONES

Abstract

The article presents a study on the development of artificial, robust, and hydrophobic materials with core-shell polyurethane-polydimethylsiloxane or polyurethane-poly(n-butyl acrylate) polymer microparticles. For the study, researchers created that latexes through polyaddition in cyclohexane with commercial or synthetic steric stabilizers. They found that the hydrophobicity of the particles was attributed to a Cassie-Baxter state.

Published

2008