Christian Grandfils
Overview
Explore the profile of Christian Grandfils including associated specialties, affiliations and a list of published articles.
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Articles
56
Citations
409
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Recent Articles
1.
Sherstneva A, Demina T, Monteiro A, Akopova T, Grandfils C, Ilangala A
Polymers (Basel)
. 2025 Mar;
17(5).
PMID: 40076199
Acknowledgments were not included in the original publication [...].
2.
Monteiro A, Perez-Jimenez A, Spitzlei C, Caucheteux J, Alves V, Lambert S, et al.
J Biomed Mater Res B Appl Biomater
. 2023 Nov;
112(1):e35354.
PMID: 37986690
The study investigates the rheological properties and protein release capacity of a uniform hydrogel composed of sodium alginate (SA) and poloxamer (P407). The hydrogel is prepared through the sustained release...
3.
Concordio-Reis P, Macedo A, Cardeira M, Moppert X, Guezennec J, Sevrin C, et al.
Bioengineering (Basel)
. 2023 Feb;
10(2).
PMID: 36829687
In this study, the novel exopolysaccharide (EPS) produced by the marine bacterium Mo 169 was used as a stabilizer and capping agent in the preparation of selenium nanoparticles (SeNPs). The...
4.
Meneses L, Esmail A, Matos M, Sevrin C, Grandfils C, Barreiros S, et al.
Bioengineering (Basel)
. 2022 Jul;
9(7).
PMID: 35877353
Polyhydroxyalkanoate (PHA) recovery from microbial cells relies on either solvent extraction (usually using halogenated solvents) and/or digestion of the non-PHA cell mass (NPCM) by the action of chemicals (e.g., hypochlorite)...
5.
Rodrigues A, Franca R, Dionisio M, Sevrin C, Grandfils C, Reis M, et al.
Polymers (Basel)
. 2022 Jun;
14(11).
PMID: 35683828
Polyhydroxyalkanoates (PHA) are biopolymers with potential to replace conventional oil-based plastics. However, PHA high production costs limit their scope of commercial applications. Downstream processing is currently the major cost factor...
6.
Gil C, Rebocho A, Esmail A, Sevrin C, Grandfils C, Torres C, et al.
Polymers (Basel)
. 2022 May;
14(10).
PMID: 35631971
Biosurfactants synthesized by microorganisms represent safe and sustainable alternatives to the use of synthetic surfactants, due to their lower toxicity, better biodegradability and biocompatibility, and their production from low-cost feedstocks....
7.
Sherstneva A, Demina T, Monteiro A, Akopova T, Grandfils C, Ilangala A
Polymers (Basel)
. 2022 Apr;
14(7).
PMID: 35406187
Tissue engineering and cell therapy are very attractive in terms of potential applications but remain quite challenging regarding the clinical aspects. Amongst the different strategies proposed to facilitate their implementation...
8.
Baptista S, Torres C, Sevrin C, Grandfils C, Reis M, Freitas F
Polymers (Basel)
. 2022 Feb;
14(3).
PMID: 35160380
In this study, membrane-based methods were evaluated for the recovery of FucoPol, the fucose-rich exopolysaccharide (EPS) secreted by the bacterium A47, aiming at reducing the total water consumption and extraction...
9.
Joulak I, Concordio-Reis P, Torres C, Sevrin C, Grandfils C, Attia H, et al.
Environ Sci Pollut Res Int
. 2021 Nov;
29(15):22043-22055.
PMID: 34773587
Large quantities of waste biomass are generated annually worldwide by many industries and are vastly underutilized. However, these wastes contain sugars and other dissolved organic matter and therefore can be...
10.
Demina T, Kilyashova L, Popyrina T, Svidchenko E, Bhuniya S, Akopova T, et al.
Polymers (Basel)
. 2021 Sep;
13(18).
PMID: 34577945
Biodegradable polymeric microparticles are widely used in drug delivery systems with prolonged-release profiles and/or cell microcarriers. Their fabrication via the oil/water emulsion solvent evaporation technique has normally required emulsifiers in...