about
Plasma polymer films as an alternative to (PSS-PAH)n or (PSS-PDADMAC)n films to retain active enzymes in exponentially growing polyelectrolyte multilayers.[Progression of diabetic retinopathy during pregnancy].Characterization and Physicochemical Properties of Condensed Tannins from Acacia catechu.Sepiolite as a promising nanoclay for nano-biocomposites based on starch and biodegradable polyester.Elaboration, morphology and properties of starch/polyester nano-biocomposites based on sepiolite clay.Fungal fermentation of lignocellulosic biomass for itaconic and fumaric acid production.Itaconic and Fumaric Acid Production from Biomass Hydrolysates by Aspergillus Strains.Enzymatic Synthesis of Amino Acids Endcapped Polycaprolactone: A Green Route Towards Functional Polyesters.Solvent- and Halogen-Free Modification of Biobased Polyphenols to Introduce Vinyl Groups: Versatile Aromatic Building Blocks for Polymer Synthesis.Lignin-Based Materials Through Thiol-Maleimide "Click" Polymerization.Enzymatic Synthesis of a Bio-Based Copolyester from Poly(butylene succinate) and Poly((R)-3-hydroxybutyrate): Study of Reaction Parameters on the Transesterification Rate.Star-pseudopolyrotaxane organized in nanoplatelets for poly(ε-caprolactone)-based nanofibrous scaffolds with enhanced surface reactivity.Disruption of β-oxidation pathway in Pseudomonas putida KT2442 to produce new functionalized PHAs with thioester groups.Synthesis and evaluation of functional alginate hydrogels based on click chemistry for drug delivery applications.Original method for synthesis of chitosan-based antimicrobial agent by quaternary ammonium grafting.Differentiation of human adipose-derived stem cells seeded on mineralized electrospun co-axial poly(ε-caprolactone) (PCL)/gelatin nanofibers.From D-sorbitol to five-membered bis(cyclo-carbonate) as a platform molecule for the synthesis of different original biobased chemicals and polymers.Clicking Biobased Polyphenols: A Sustainable Platform for Aromatic Polymeric MaterialsStarch/graphene hydrogels via click chemistry with relevant electrical and antibacterial propertiesNanobiocomposites Based on Plasticized StarchTailoring the Structure, Morphology, and Crystallization of Isodimorphic Poly(butylene succinate-ran-butylene adipate) Random Copolymers by Changing Composition and Thermal HistoryRelationship between morphology, properties and degradation parameters of novative biobased thermoplastic polyurethanes obtained from dimer fatty acidsOriginal biobased nonisocyanate polyurethanes: solvent- and catalyst-free synthesis, thermal properties and rheological behaviourEffect of Oligo-Hydroxyalkanoates on Poly(3-Hydroxybutyrate-co-4-Hydroxybutyrate)-Based SystemsStarch nano-biocomposites based on needle-like sepiolite claysNew Approach to Elaborate Exfoliated Starch-Based NanobiocompositesThe study of the pseudo-polyrotaxane architecture as a route for mild surface functionalization by click chemistry of poly(ε-caprolactone)-based electrospun fibersMorphological, thermal, and mechanical properties of poly(ε-caprolactone)/poly(ε-caprolactone)-grafted-cellulose nanocrystals mats produced by electrospinningElaboration and Characterization of Coaxial Electrospun Poly(ε-Caprolactone)/Gelatin Nanofibers for Biomedical ApplicationsOriginal Macromolecular Architectures Based on poly(ε-caprolactone) and poly(ε-thiocaprolactone) Grafted onto Chitosan BackboneNanoclays for Lipase Immobilization: Biocatalyst Characterization and Activity in Polyester Synthesis.Production and characterization of two medium-chain-length polydroxyalkanoates by engineered strains of Yarrowia lipolytica.Micromechanical modeling and characterization of the effective properties in starch-based nano-biocompositesMixed culture polyhydroxyalkanoate (PHA) production from volatile fatty acid (VFA)-rich streams: effect of substrate composition and feeding regime on PHA productivity, composition and propertiesMicromechanically-based formulation of the cooperative model for the yield behavior of starch-based nano-biocompositesOn the heterogeneous composition of bacterial polyhydroxyalkanoate terpolymersInnovative thermoplastic chitosan obtained by thermo-mechanical mixing with polyol plasticizersInnovative plasticized alginate obtained by thermo-mechanical mixing: Effect of different biobased polyols systemsOptimized Bioproduction of Itaconic and Fumaric Acids Based on Solid-State Fermentation of Lignocellulosic BiomassNanocomposite foams based on flexible biobased thermoplastic polyurethane and ZnO nanoparticles as potential wound dressing materials
P50
Q33454585-9D8401B5-4FA2-4A64-9D59-ED9411E4CA1CQ33572482-25EFD03C-449C-41CF-8371-29771154A587Q35916946-46D04544-7157-41F0-AB67-ACB31041C101Q39258983-7691934B-0EB9-4A78-A6DD-D973B7AE3BD0Q41647669-384987AD-164F-4244-9A37-8275C8869E68Q46485645-C53A02AC-B07C-4EC3-A30F-A628C6000B60Q46533792-99902106-18F4-4389-AD5C-FA34A8E75AADQ48132310-0980BF00-F064-497B-B256-405BB99E0DEEQ48239448-DF727238-F00A-4E4E-91FD-F1A7F7EAC4CBQ50211689-697A71B0-9AA8-42E4-8C1E-01FCE43E2FF8Q50267390-8DACF8CC-A258-459B-8999-FD1DEAE99F65Q51032731-2862C793-1C99-4510-BABC-0A73CCF14BF6Q52607334-88669082-0D92-4145-95F3-052032D9D8C9Q53415746-A6B9CA5E-D99C-4788-A913-971A74E766FFQ54233824-D5C57232-3F20-4FEB-B29D-1876E5604A29Q54384629-A6274996-651E-4D54-9735-16D546C42D24Q55318864-D0E62578-8A41-47D3-93CC-14BE740D3F05Q56036342-4C5F2C9E-F1F8-4C5A-B533-DA8F6E093708Q57023204-90382AFD-EC14-4A32-B764-AB666A3D76E7Q57255264-CC0942A3-4321-41B7-AB75-5D865E346A16Q58447915-BC74C0CB-3EE6-43F9-A568-89E743654B97Q58657789-0D0731F2-3633-4A6F-BEF8-4F8D3152FA82Q59318657-3CBFD92B-A837-493A-B489-9CDE8091EA9BQ59742477-83933A8A-4936-4E69-A0BC-118B473144C2Q60156713-9E3668E0-816F-4FBF-98E2-63720756C2E8Q60156719-4B8C1435-EE55-4FD0-8A26-8A63460DEBEFQ60158398-1CBDB39B-ADB3-4D0B-A54C-D02480920004Q60158404-8581774E-C074-4292-8373-EED9F31232E3Q60158422-9B3A346A-1277-485E-82BA-994C16B7F338Q60927912-C3CCBA4D-6ED6-414B-86D7-6ACAE9E87571Q64884531-B9814FFE-279F-4170-8728-50972D635FDEQ64930592-55887EDA-8FE3-408C-9565-57095B57CE06Q81426267-353BC1E4-3C4A-469A-B514-298A948C00FEQ82231846-8BD168C0-BFEA-45A7-9B4E-1468C4E8B0D8Q83959301-3843F61A-E054-48D9-BD60-38EAA8D65730Q85640467-27708EC0-4B6C-4BCC-B5A4-9DDC290D7EFAQ86656338-41FEA74A-504D-4626-8F37-E6C90824A7C4Q89003989-FB2E5A09-ADC4-4C64-BE84-903053C055D5Q89976122-4AFFB870-6C11-416B-9DC7-AC4727D7548EQ89992575-604A6C4F-3017-4A20-8DED-5B6131CC75B8
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Luc Avérous
@ast
Luc Avérous
@en
Luc Avérous
@es
Luc Avérous
@nl
type
label
Luc Avérous
@ast
Luc Avérous
@en
Luc Avérous
@es
Luc Avérous
@nl
prefLabel
Luc Avérous
@ast
Luc Avérous
@en
Luc Avérous
@es
Luc Avérous
@nl
P106
P1153
6701626761
P31
P496
0000-0002-2797-226X