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Macromolecules at surfaces: Research challenges and opportunities from tribology to biology
Authors:Steve Granick  Sanat K. Kumar  Eric J. Amis  Markus Antonietti  Anna C. Balazs  Arup K. Chakraborty  Gary S. Grest  Craig Hawker  Paul Janmey  Edward J. Kramer  Ralph Nuzzo  Thomas P. Russell  Cyrus R. Safinya
Abstract:A comprehensive review of ongoing and recommended research directions concerning the structure, dynamics, and interfacial activity of synthetic and naturally occurring macromolecules at the solid–liquid interface is presented. Many new developments stem from the ability to target new size regimes of 1–100 nm. These rapid developments are reviewed critically with respect to chemical synthesis, processing, structural characterization, dynamic processes, and theoretical and computational analysis. The common problems shared by flat and particulate surfaces are emphasized. A broad spectrum of material properties are discussed, from the control of interfacial friction between surfaces in moving contact, to the mechanical strength and durability of the interfaces in hybrid materials, to optical and electronic properties. Future research opportunities are identified that involve (1) the emergence of nanoscale material properties, (2) polymer‐assisted nanostructures, and (3) the crossroads between interfacial science and biological and bioinspired applications. © 2003 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 41: 2755–2793, 2003
Keywords:anionic polymerization  biopolymers  block copolymers  colloids  dendrimers  diffusion  gels  glass transition  hyperbranched  interfaces  kinetics  lamellar  lattice models  mechanical properties  metathesis  microgels  molecular dynamics  molecular modeling  Monte Carlo simulation  nanocomposites  neutron reflectivity  neutron scattering  SAXS  self‐assembly  self‐organization  shear  simulations  structure  surfaces  supramolecular structure  synthesis  theory  thin films  viscosity  viscoelastic properties  X‐ray
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