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Project at a Glance Contents on the CD ROM
  • Graft copolymers are a special type of branched copolymer in which the side chains are structurally distinct from the main chain.
  • The grafting of polymers onto carbon nanotubes (CNT) and nanofibers, such as vapor grown carbon fiber (VGCF) surfaces was achieved by (1) the ``grafting onto'' method, (2) ``polymer reaction'' method, (3) ``grafting
    from'' method, and (4) ``stepwise growth'' method by dendrimer synthesis methodology.
  • Graft copolymer with a poly(vinyl chloride) backbone were prepared by two approaches, one was preparation
    of a macroinitiator by copolymerization of vinyl chloride with a monomer containing an ATRP initiating group,
    vinyl chloroacetate.
  • End grafted polymers, which are polymers tethered to the substrate surface, have been extensively studied
    because of its importance in surface rheology such as adhesions, frictions, and lubrications.
  • Recently, there has been considerable interest in the study of configurational properties of polymer chains
    terminally attached or end-grafted to an interface.
  • Orthogonal polymer brush gradients are assemblies of surfaceanchored macromolecules, in which two material
    properties of the grafted chains (e.g., grafting density, molecular weight) vary independently in orthogonal directions.
  • Layers of grafted polymers have a wide range of applications, ranging from the colloidal stabilization of industry formulations, water treatment, and mineral recovery, to the control of surface wetting and adhesion or the protection of stealth liposomes from the human immune system in drug delivery.
  • Ultrathin end-grafted polymer layers play an important role in colloidal stabilization, chromatography,
    adhesion, lubrication, microelectronics, and biocompatibility of artificial organs in medicine.
  • Grafting can be attained either by physisorption (diblock copolymers) or by chemisorption (end-functionalized polymers).
  • Biopolymer chitin, the most abundant natural amino polysaccharide, and its most important derivative, chitosan, are recently considered as the subjects for
    extensive worldwide academic and industrial research.
  • In spite of potential applications of chitin and chitosan, it is necessary to establish efficient appropriate
    modifications to explore fully the high potential of these biomacromolecules.
  • Grafting of polyvinylic and polyacrylic synthetic materials on the polysaccharides are mainly achieved by
    radical polymerization.
  • Graft copolymers are prepared by first generating free radicals on the biopolymer backbone and then allowing these radicals to serve as macroinitiators for the vinyl (or acrylic) monomer.
  • Grafting with telechelic polymers provides an alternative method, commonly referred to as grafting onto ,
    for synthesizing hybrid branched architectures.
  • Graft copolymerization is considered to
    be one of the most promising approaches to a wide variety of molecular designs leading to novel type of tailored hybrid materials.
  • Copolymer
  • Graft Copolymers
  • Theory of the Grafted Polymer Brush


  • Arborescent Graft Polymers
  • Grafted Polymer Adhesive
  • Agrimer
  • Amplify
  • Epolene Polymers


  • ABS Resin
  • ASA Resin
  • Biorad Msds
  • Durastrength
  • Polyester/ styrene/ acrylic graft polymer
  • Polystyrene Graft Ethylene Oxide
  • Reflect Spray Buff

Study reports

  • Cyclic Motion of a Grafted Polymer under Shear Flow
  • End grafted polymer nanoparticles in a polymeric matrix
  • Molecular Dynamics Study of the Adhesion between End-grafted Polymer Films
  • Monte Carlo study of polymer chains end - grafted onto a spherical interface
  • Orthogonal Surface-Grafted Polymer Gradients: A Versatile Combinatorial Platform
  • Protein Adsorption on Surfaces with Grafted Polymers: A Theoretical Approach
  • Simulation of Interaction Forces between Nanoparticles
  • Sliding Grafted Polymer Layers
  • Sliding friction between an elastomer network and a grafted polymer layer: The role of cooperative effects
  • Structure of Chemically End-Grafted Polymer Chains Studied by Scanning Force Microscopy in Bad-Solvent Conditions
  • Synthesis and characterization of grafted polymer conformations on nanoparticles by raft polymerization


  • Structure of Chemically End-Grafted Polymer Chains Studied by Scanning Force Microscopy in Bad-Solvent Conditions
  • Block and Graft Copolymers
  • Carboxyl-Containing Starch Graft Polymer
  • Preparation of End Grafted Polyacrylonitrile Brushes through Surface Confined Radical Chain Transfer Reaction
  • Liquid Crystal Polymer Brush with Hydrogen Bonds: Structure and Orientation Behavior
  • Surface-Grafted Polymers from Electropolymerized Polythiophene RAFT Agent
  • Grafting of styrene and methyl methacrylate concurrently onto polybutadiene in semicontinuous emulsion processes and determination of copolymer microstructure
  • Patterned grafting of polymer brushes onto flexible polymer substrates
  • Polymer-Grafted Forming Fabrics
  • Grafting Processes
  • Graft Polymerization of Styrene onto Starch by Simultaneous Cobalt-60 Irradiation
  • Synthesis of Well-Defined Polymer Brushes Grafted
  • Grafting: a versatile means to modify polymers Techniques, factors and applications
  • Graft polymers
  • Grafted polymer composition
  • Graft polymers containing phosphorus
  • Carbon black graft polymer
  • Hydrophilic graft polymer
  • Reactive graft polymers
  • Production of graft polymers
  • Polymer-chain-grafted carbon nanocapsule
  • Toughened grafted polymers
  • Starch graft polymers
  • Graft polymer dispersions
  • Grafted polymers as gas hydrate inhibitors
  • Graft polymers with controlled viscosity
  • Process for producing graft polymer
  • Temperature-Responsive Polymers for Biological Applications
  • Smart polymers and their applications as Biomaterials
  • Synthesis, Characterization and Cement Application of Maleic Anhydride Water-Soluble grafted polymer
  • Polymer grafting and Cross linking
  • Polymer - Grafted silica nanoarticles for improving mechanical properties of coatings and resins
  • Graft Polymers
  • Surface-Grafted Polymer Gradients
  • Surface Grafted Polymer Brushes: Potential Applications in Textile Engineering

Company Profiles

  • Company from North America
  • Company from France
  • Company from Texas
  • Company from India
  • Another Company from India
  • Company from Ohio


  • Suppliers list
  • Indian Suppliers


  • Consultant from Michigan
  • Consultant from Delaware
  • Consultant from South Carolina
  • Expert
  • Consultant from New Jersey
  • Consultant from Arizona


  • End-Grafted Polymer Chains onto Inorganic Nano-Objects
  • Super Absorbent polymers - report
  • Environmentally Friendly Synthesis of Polymer-Grafted Nanoparticles
  • Polysaccharide-Based Graft Copolymers in Controlled Drug Delivery
  • PLUSS expands production capacity of Grafted Polymers
  • RAFT “grafting-through” approach to surface-anchored polymers
  • Super absorbent polymers are poised for good growth

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