Combinatorial Methods and Informatics in Materials Science: Volume 894M. J. Fasolka Combinatorial and high-throughput experimental approaches and related informatics, modeling and data-mining methods have permitted researchers to accelerate the pace at which new, complex materials and device systems are discovered, optimized and understood. Today, the development and application of these revolutionary approaches continue to grow and diversify. This book offers an international, interdisciplinary perspective for scientists and engineers interested in combinatorial, high-throughput and advanced informatics approaches to materials research. The range of disciplines includes materials science; chemistry; physics; electrical, chemical and mechanical engineering; materials modeling; and data systems engineering. Presentations share successful studies, and illuminate current and emerging challenges in areas including: the design and fabrication of combinatorial libraries for materials and devices; high-throughput characterization methods for such systems; automation of instrumentation and data analysis; advanced modeling and data mining techniques for rapid materials design and properties prediction; and data system design and software for combinatorial workflows. |
Contents
Combinatorial Fabrication and Screening of Organic | 3 |
Design and Application of Gradient Annealing Devices | 15 |
Combinatorial Approach to Exploration of a Novel Fluid | 23 |
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Common terms and phrases
2006 Materials Research adsorption analysis annealing temperature antenna applications array atomic Birefringence calculations cantilever CAPD catalyst cathode CdSe CdSe nanocrystals cell Chem chemical CMDF coacervate coatings Combi-1 combinatorial compositional spread computational crystallization temperature data warehouse database density dental materials deposition developed diffraction DMDW electron energy ethanol EtOH evaluation experimental fabrication film thickness function gradient high-throughput high-throughput screening images interactions laser layer magnetic magnetostriction martensitic Materials Research Society Materials Science measured method molecular molecule monoclinic nanocrystals nanoparticles optical optimization oxide oxygen parameters pentacene peptide pervaporation phase Phys plot polymer potential Potyrailo probe Proc properties ReaxFF refractive index resistance rubrene samples screening sensor film sensor materials shown in Figure shows SiO2 solution spectra sputtering SrTiO3 steam reforming structure substrate surface surfactant Symp technique Technology thin film library wafer zeolite zeolite membrane zircon ZrSiO4