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The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
This book from the Materials Research Society emphasizes the broad scientific and technological interest in applications of organic materials to optoelectronics and optics. Materials synthesis, modification, and characterization from the nanoscale to the mesoscale to the macroscale are discussed. Approaches for modeling and theoretical analysis of these materials are highlighted. Also featured in the volume are a keynote talk from Professor Alan Heeger, 2000 Nobel Prize winner in chemistry, as well as five papers from the Microphotonics symposium that address photonic crystals involving organic materials. Additional topics include: metal/organic interfaces - electronic structure and charge injection; photonic/nonlinear optical materials and devices; design and synthesis of electroluminescent materials; applications in displays; electrochromic polymers/sensors; organic transistors; photovoltaics and photodetectors - transport in bulk organic materials and novel patterning schemes.
Fifty-seven papers examine the synthesis, characterization, and processing of nanoparticulate materials. Selected from the talks and posters given at the November symposium organized by the Materials Research Society, the papers look at applications in the areas of optics, magnetics, electronics, advanced energy storage, nano- dispersions, and biology. Major topics include methods for production of controlled size and shape of nanoparticles, ability to process nanoparticles to form uniform dispersions, directed assembly of nanoparticles at specific locations, large scale production, and surface control of nanoparticle materials for tailoring of specific properties. Annotation copyrighted by Book News, Inc., Portland, OR
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.
Microelectromechanical systems (MEMS) can be a critical link between the macroworld and the realm of nanobiotechnology. Top-down MEMS methods and devices will likely serve as an important handle for interfacing with the bottom-up techniques and structures that typify nanobiotechnology. This volume focuses on recent advances in the fields of MEMS and BioMEMS, including microfluidics, bioanalysis, packaging, materials and fabrication methods. It is clear from these presentations that top-down semiconductor-based processing remains vital. Indeed, frontiers are expanding within this realm, with new research on materials like poly-SiGe. However, new materials, particularly polymers, and bottom-up methods such as soft lithography and chemical synthesis, are continually gaining in utility and importance. It is also apparent from this volume that microanalytical techniques continue to be advanced, including new ways of separating samples by optical, adhesion-based and dielectrophoretic methods. And sensors, always of interest, are demonstrated here by research into sensors for environmental and material analysis. Capacitance-based sensors for DNA analysis, and magnetic sensors for position sensing, are also highlighted. Finally, systems for direct interfacing with biological systems are addressed, with presentations on neural recording methods, retinal implants, and tissue engineering.
The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners. This book, first published in 2002, focuses on the materials science of MEMS structures and the films involved to create those structures.
Among the topics of invited papers are the electrical characterization of inhomogeneous and heterogeneous systems with microstructural periodicity, impedance spectroscopy in ferromagnetic materials, the materials characterization and device performance of a CMR- ferroelectric heterostructure, and broadband dielectric spectroscopic investigations into the influence of confinement on the molecular reorientational dynamics of liquid crystals. Many papers besides the 48 selected here are expected to appear in various scientific journals. Annotation copyrighted by Book News, Inc., Portland, OR