M
Marc A. Meyers
Researcher at University of California, San Diego
Publications - 502
Citations - 42882
Marc A. Meyers is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Deformation (engineering) & Dislocation. The author has an hindex of 85, co-authored 487 publications receiving 36646 citations. Previous affiliations of Marc A. Meyers include University of California & Instituto Militar de Engenharia.
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Uniaxial Freezing, Freeze‐Drying, and Anodization for Aligned Pore Structure in Dye‐Sensitized Solar Cells
TL;DR: A variety of experimental techniques are available for creating the titanium dioxide (TiO2) semiconductor surface layer of dye-sensitized solar cells (DSSCs); however, many of them are used independently to create surface morphologies that are influenced by only one process.
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Materials for extreme environments
Suhas Eswarappa Prameela,Tresa M. Pollock,Dierk Raabe,Marc A. Meyers,Assel Aitkaliyeva,Kerri-lee Annique Chintersingh,Zachary C. Cordero,Lori Graham Brady +7 more
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The one-step synthesis of dense titanium-carbide tiles
TL;DR: The CeraconTM process as discussed by the authors combines self-propagating, high-temperature synthesis (SHS), which is an attractive process for forming alloys, cermets, ceramics, and composites, with a rapid quasi-isostatic consolidation technology.
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Isentropic/shock compression and recovery methodology for materials using high-amplitude laser pulses
Brian Maddox,H.-S. Park,C.-H. Lu,Bruce Remington,Shon Prisbrey,Bimal K. Kad,R. Luo,Marc A. Meyers +7 more
TL;DR: In this article, a new method of subjecting samples to high-amplitude laser pulses with durations in the ns range and recovering them for characterization is presented, which enables, with proper wave trapping devices, the recovery of the specimens for subsequent characterization.
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Microchannelled hydroxyapatite components by sequential freeze drying and free pressureless spark plasma sintering
TL;DR: In this paper, a novel freeze drying, free pressureless spark plasma sintering (FPSPS) processing sequence is developed for the production of hydroxyapatite (HAP) based microchannelled structures.