Phosphorus-containing (co)polymers are gaining wide appeal for many uses, from healthcare and medicine to energy and environmental applications. Phosphorus-Based Polymers is the first book dedicated to this topic and provides a comprehensive overview of the different polymers and their uses.
The first part of the book covers the synthesis and polymerisation of different phosphorus containing systems including phosphorus containing (meth)acrylate, (meth)acrylamide and viny or allyl monomers, as well as vinyl phosphonic acid, 2-methacryloyloxyethyl phosphorylcholine, poly(phosphoesters)and polyphosphazenes. The second part of the book contains specific chapters detailing different applications such as biomedical applications in dental materials, tissue engineering and drug delivery, metal complexation for anti-corrosion and wastewater purification materials, fire retardant additives and fuel cell membranes.
Written by expert researchers in the chemistry of phosphorus-containing polymers, this book is suitable for academic and industrial researchers interested in polymer and materials synthesis as well as their applications.
Sophie Monge is assistant professor in Macromolecular Chemistry at the University of Montpellier 2, in the ICGM laboratory. She is an expert in controlled radical polymerization, especially atom transfer radical polymerization (ATRP) and reversible addition-fragmentation transfer polymerization (RAFT). This includes the synthesis of various molecules necessary for the polymerization reactions such as ligands, initiators, chain transfer agents, etc...and their characterization. An important field of her research deals with the synthesis and polymerization of phosphorus-containing polymers for various applications, in particular the biomedical field, and the complexation with metals. Ghislain David is assistant professor in Macromolecular Chemistry at the National School of Chemistry of Montpellier, in the ICGM laboratory. His main research projects are in the field of phosphorus-containing polymers obtained either from synthesis and radical polymerizations of phosphorus-containing monomers or from post-modification of pre-made polymers. Thus he is an expert in organo-phosphorus chemistry aiming at synthesizing of new monomers and polymers having phosphonate moieties. His research interests concern the developments of such polymers for a large field of applications: membranes for fuel cells, anti-corrosive coatings and flame retardants.
Polymerization of Phosphorus-Containing (Meth)acrylate Monomers; Polymerization of Phosphorus-Containing (Meth)acrylamide Monomers; Phosphorus-Containing Both Vinyl or Allyl Monomers; Synthesis and Polymerization of Vinyl Phosphonic Acid; 2-Methacryloyloxyethyl PhosphorylCholine (MPC) Polymers; Polyphosphoesters; Polyphosphazenes High Polymers; Phosphorus-Based Monomers Used for Dental Application; Biomedical Applications of Phosphorous-Containing Polymers; Complexation with Metals: Anti-Corrosion; The Use of Phosphorus-Containing Polymers for the Removal of Metal Ions from Wastewaters; Flame Retardancy of Phosphorus-Containing Polymers; Proton Conducting Phosphonated Polymers and Membranes for Fuel Cells;