0000000000890416

AUTHOR

X Garric

showing 3 related works from this author

When Functionalization of PLA Surfaces Meets Thiol−Yne Photochemistry: Case Study with Antibacterial PolyaspartamideDerivatives

2014

International audience; In this work we wish to report on the covalent functionalization of polylactide (PLA) surfaces by photoradical thiol–yne to yield antibacterial surfaces. At first, hydrophilic and hydrophobic thiol fluorescent probes are synthesized and used to study and optimize the conditions of ligation on alkyne-PLA surfaces. In a second part, a new antibacterial polyaspartamide copolymer is covalently grafted. The covalent surface modification and the density of surface functionalization are evaluated by SEC and XPS analyses. No degradation of PLA chains is observed, whereas covalent grafting is confirmed by the presence of S2p and N1s signals. Antiadherence and antibiofilm acti…

Polymers and PlasticsPolyaspartamide copolymerPhotochemistrySurface PropertiesPolyestersPLA surfacesBioengineering02 engineering and technology010402 general chemistry01 natural sciencesCell LineBiomaterialsMiceMaterials ChemistryCopolymerOrganic chemistryAnimalsSulfhydryl CompoundsPolyaspartamide copolymers; PLA surfaceschemistry.chemical_classification[CHIM.ORGA]Chemical Sciences/Organic chemistryBiofilm021001 nanoscience & nanotechnologyGraftingFluorescenceCombinatorial chemistryIn vitro0104 chemical sciencesAnti-Bacterial AgentsPolyaspartamide copolymerschemistryCovalent bondSettore CHIM/09 - Farmaceutico Tecnologico ApplicativoThiolSurface modification0210 nano-technologyPeptides
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FUNCTIONALITATION OF HYDROPHOBIC SURFACES WITH A POLYASPARTAMIDE-BASED DERIVATIVE FOR BIOMEDICAL APPLICATION

2013

PLAPOLYASPARTAMIDE; PLA; THIOL-YNETHIOL-YNEPOLYASPARTAMIDEPOLYASPARTAMIDE PLA THIOL-YNE
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TOWARD POTENT ANTIBIOFILM DEGRADABLE MEDICAL DEVICES: GENERIC METHODOLOGIES FOR THE SURFACE MODIfiCATION OF POLYLACTIDE

2014

PolyaspartamidePLA surfaceantibiofilmPLA surfacesantibiofilm PolyaspartamideThiol-Yneantibiofilm; Polyaspartamide; PLA surfaces; Thiol-Yne
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