Show
Sort by
-
- Journal Article
- A1
- open access
From one-pot stabilisation to in situ functionalisation in nitroxide mediated polymerisation: an efficient extension towards atom transfer radical polymerisation
-
ROP of cyclic amines and sulfides
-
Heterogeneous azide-alkyne click chemistry: towards metal-free end products
-
- Journal Article
- A1
- open access
Imidazolium end-functionalized ATRP polymers as directing agents for CNT dispersion and confinement
-
Structure formation of adsorption layers of ionic-amphiphilic copolymers on inorganic and organic pigment surfaces as studied by ESA
-
Efficient stabilization of carbon nanotubes through supramolecular interactions with controlled polymer structures
-
- Journal Article
- A1
- open access
Poly(ethylene oxide)-b-poly(L-lactide) diblock copolymer/carbon nanotube-based nanocomposites : LiCl as supramolecular structure-directing agent
-
Supramolecular design of high-performance poly(L-lactide)/carbon nanotube nanocomposites : from melt-processing to rheological, morphological and electrical properties
-
Efficient stabilization of carbon nanotubes through supramolecular interaction with controlled polymer structures
-
Block versus block-like copolymers: comparative study and exploration of a continuous preparation method
(2010) -
Chemical modifications of cryogels verified using high-resolution mass NMR spectroscopy
-
'Click' chemistry/ATRP combination for the design of poly(acrylic) acid containing polymers and the evaluation of polymeric ligands
-
The nature of Cu(II) species in ATRP: new insights via EPR
-
- Journal Article
- A1
- open access
Structure of adsorption layers of amphiphilic copolymers on inorganic or organic particle surfaces
-
‘Click’ functionalization of cryogels conveniently verified and quantified using high- resolution MAS NMR spectroscopy
-
'Click' functionalization of cryogels easily verified using high-resolution MAS NMR spectroscopy
-
Functionalization of cryogels: toward versatile macroporous materials
-
Block versus block-like copolymers: synthesis and solid-liquid interface behavior
-
Comparative Study of the Solid-Liquid Interface Behavior of Amphiphilic Block and Block-Like Copolymers
-
From novel block-like copolymers to reactive nanoparticles: ATRP and “click” chemistry as synthetic tools
-
Synthesis of stimuli-response block and ‘block-like’ copolymers: simulations versus practice
(2009) p.P1-88-P1-88 -
Chemical modifications of cryogels verified using high-resolution mass NMR spectroscopy
-
Synthesis of stimuli-responsive block and 'block-like' copolymers: simulations versus practice (Poster by B. Dervaux)
-
Synthesis of stimuli-responsive block and 'block-like' copolymers: simulations versus practice
-
Amphiphilic block versus 'block-like' copolymers: synthesis, micellization and pigment stabilization (Lecture by B. Dervaux)
-
Propagation rate coefficients of isobornyl acrylate, tert-butyl acrylate and 1-ethoxyethyl acrylate: a high frequency PLP-SEC study
-
Continuous ATRP synthesis of block-like copolymers via column reactors : design and validation of a kinetic model
-
From novel block-like copolymers to reactive nanoparticles: ATRP and "click" chemistry as synthetic tools
-
Convergent synthesis of dendrimers based on 1,3,3-trisubstituted 2-oxindoles
-
Amphiphilic block versus ‘block-like’ copolymers prepared by ATRP: Synthesis, micellization and pigment stabilization
(2009) p.28-28 -
Synthetic strategies for a range of pH-responsive polymer structures involving ATRP and 'click' chemistry
-
Amphiphilic block and "block-like" copolymers based on poly(isobornyl acrylate) and poly(acrylic acid) via ATRP (Poster by B.Dervaux)
-
Cryogels as novel solid-supported copper catalyst system for click chemistry and their use in column reactors (Lect. by B. Dervaux)
-
Synthetic strategies for a range of pH-responsive polymer structures involving ATRP and 'click' chemistry
-
ATRP and 'click' chemistry for the design of poly(acrylic acid) containing polymers and evaluation of a novel solid-supported Cu(I) catalyst system (Sh.Lect. by W. Van Camp)
-
Using hr-MAS NMR to Monitor and Quantify Chemical Modifications of Cryogels
-
Cryogels as novel solid support for copper catalyzed "click" chemistry
-
'Click' chemistry/ATRP combination for the design of poly(acrylic acid) containing polymers and the evaluation of polymeric ligands
-
Chemical modifications of cryogels verified using high-resolution mass NMR spectroscopy
-
Cryogels as novel solid support for continuous metal-catalyzed reactions
-
Poly(para-phenynylene vinylene) derivaties as a starting point for “pseudo” living radical polymerizations and “click” chemistry
-
Macroporous gels as column reactors: application for metal-catalyzed reactions
-
Using hr-MAS NMR to Monitor and Quantify Chemical Modifications of Cryogels
-
Design and use of organic nanoparticles prepared from star-shaped polymers with reactive end groups
-
Synthesis of poly(isobornyl acrylate) containing copolymers by atom transfer radical polymerization
-
Amphiphilic block and ‘blocky gradient’ copolymer structures based on poly(isobornyl acrylate) and poly(acrylic acid) via ATRP (Poster by B.Dervaux)
-
Star-shaped poly(isobornyl acrylate) with reactive end groups: toward a new type of nanoparticles. Poster by M.L
-
Amphiphilic block and ‘block-like’ copolymer structures based on poly(isobornyl acrylate) and poly(acrylic acid) via ATRP (Poster B.Dervaux)
-
Design and evaluation of a new type of nanoparticles based on star-shaped polymer structures with reactive end groups. (Abstr. by F. Du Prez)
-
Design of novel organic nanoparticles based on star-shaped polymer structures with reactive end-groups (Abstract FDP)
-
Amphiphilic block and ‘block-like’ copolymer structures base don poly(isobornyl acrylate) and poly(acrylic acid) via ATRP. Poster P22 by B. Dervaux
-
Design of novel nanoparticles based on star-shaped polymer structures with reactive end groups (Abstract FDP)
-
Star-shaped poly(isobornyl acrylate) with reactive end groups: towards a new type of nanoparticles
-
Star-shaped polymers with reactive end groups for the creation of a new type of nanoparticles (Lecture F. Du Prez)
-
Morphological transition during the thermal deprotection of poly(isobornyl acrylate)-b-poly(1-ethoxyethyl acrylate)
-
Fructose as a reducing agent for in situ generation of Cu(I) species via an electron-transfer reaction in copper-catalyzed living/controlled radical polymerization of styrene
-
Block, blocky gradient and random copolymers of 2-ethylhexyl acrylate and acrylic acid by atom transfer radical polymerization