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Chemical modifications of cryogels verified using high-resolution mass NMR spectroscopy
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'Click' chemistry/ATRP combination for the design of poly(acrylic) acid containing polymers and the evaluation of polymeric ligands
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‘Click’ functionalization of cryogels conveniently verified and quantified using high- resolution MAS NMR spectroscopy
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'Click' functionalization of cryogels easily verified using high-resolution MAS NMR spectroscopy
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Functionalization of cryogels: toward versatile macroporous materials
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Block versus block-like copolymers: synthesis and solid-liquid interface behavior
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Comparative Study of the Solid-Liquid Interface Behavior of Amphiphilic Block and Block-Like Copolymers
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From novel block-like copolymers to reactive nanoparticles: ATRP and “click” chemistry as synthetic tools
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Chemical modifications of cryogels verified using high-resolution mass NMR spectroscopy
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From novel block-like copolymers to reactive nanoparticles: ATRP and "click" chemistry as synthetic tools
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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
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Amphiphilic block and "block-like" copolymers based on poly(isobornyl acrylate) and poly(acrylic acid) via ATRP (Poster by B.Dervaux)
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Cryogels as novel solid-supported copper catalyst system for click chemistry and their use in column reactors (Lect. by B. Dervaux)
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Synthetic strategies for a range of pH-responsive polymer structures involving ATRP and 'click' chemistry
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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)
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Using hr-MAS NMR to Monitor and Quantify Chemical Modifications of Cryogels
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Cryogels as novel solid support for copper catalyzed "click" chemistry
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'Click' chemistry/ATRP combination for the design of poly(acrylic acid) containing polymers and the evaluation of polymeric ligands
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Chemical modifications of cryogels verified using high-resolution mass NMR spectroscopy
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Cryogels as novel solid support for continuous metal-catalyzed reactions
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Macroporous gels as column reactors: application for metal-catalyzed reactions
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Using hr-MAS NMR to Monitor and Quantify Chemical Modifications of Cryogels
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Synthesis of poly(isobornyl acrylate) containing copolymers by atom transfer radical polymerization
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Amphiphilic block and ‘block-like’ copolymer structures based on poly(isobornyl acrylate) and poly(acrylic acid) via ATRP (Poster B.Dervaux)
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Amphiphilic block and ‘block-like’ copolymer structures base don poly(isobornyl acrylate) and poly(acrylic acid) via ATRP. Poster P22 by B. Dervaux
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Morphological transition during the thermal deprotection of poly(isobornyl acrylate)-b-poly(1-ethoxyethyl acrylate)