There is an immense variety of research on polymer functionalized graphene (PFG). Applications of these graphene polymer hybrids are included in chemical and biological sensing, photovoltaic devices, supercapacitors and batteries, dielectric materials and drug/gene delivery vehicles. This book will shed light on the synthesis, properties and applications of these new materials, covering two methods (covalent and noncovalent) for producing polymer functionalized graphene. Graduate students and researchers in polymer chemistry and nanoscience will find this book valuable reading. There is an immense variety of research on polymer functionalized graphene (PFG). Functionalization of graphene is necessary for improvement of the compatibility with polymers. Applications of these graphene polymer hybrids include in chemical and biological sensing, photovoltaic devices, supercapacitors and batteries, dielectric materials and drug/gene delivery vehicles. This book will shed light on the synthesis, properties and applications of these new materials, covering two methods (covalent and noncovalent) for producing polymer functionalized graphene. Chapters cover physical, optical, mechanical and electronic properties, applications of polymer functionalized graphene in energy harvesting and storage, and uses in biomedicine and bioengineering. Written by an expert in the field, Polymer Functionalized Graphene will be of interest to graduate students and researchers in polymer chemistry and nanoscience.
This book will shed light on the synthesis, properties and applications of polymer functionalized graphene.
Introduction; Covalent Functionalization of Polymers; Noncovalent Polymer Functionalization of Graphene; Physical Properties of Polymer Functionalized Graphene; Optical Properties of Polymer Functionalized Graphene: Application as Optical Sensor; Mechanical Properties of Polymer Functionalized Graphene; Electronic Properties of Polymer Functionalized Graphene; Polymer Functionalized Graphene as Dielectric Metal; Applications of Polymer Functionalized Graphene in Energy Harvesting: Photovoltaics; Applications of Polymer Functionalized Graphene in Energy Harvesting: Fuel Cells; Polymer Functionalized Graphene in Energy Storage Devices; Polymer Functionalized Graphene in Biomedical and Bio-technological Applications
Prof. A .K .Nandi completed his Ph.D in 1986 at Indian Association for the Cultivation of Science (IACS) in Thermodynamics of Polymer-Polymer and Polymer-Solvent mixing and completed a postdoc with Prof L. Mandelken on Crystallization of Polymers. He joined IACS in 1992 after 9 years of teaching at undergraduate and post graduate classes of different universities. So far he has published 227 research articles, four book chapters, and produced 32 Ph.Ds (+5 in progress). His research mainly involves synthesis of different graft copolymers, polymer nanocomposite, Polymer and supramolecular gelation, crystallization of polymers, polymer- biomolecular hybrids, polymer photo voltaics, polymer blends etc. In the synthesis field he grafted poly(vinylidene fluoride) and polythiophene with different thermo and pH sensitive polymers, for antifouling membrane, supertough and supergluing, optoelectronic and sensor materials, In polymer nanocomposites he improved mechanical, optoelectronic, conuctivity, dielectric and photovoltaic properties. He applied this composites in drug delivery, delectric, photovoltaic and super capacitors. In polymer and supramolecular gelation he elaborated mechanism of gelation using percolation theory, made conducting gels, hybrid gels used them in forming porous materials, opto-electronic materials, including sensors. In photovoltaics he replaced TiO2 with graphene polymer hybrids, engineered interface of perovskite solar cell and tuned band gap.
Lisainfo e-raamatute kohta