G
Gregory B. Raupp
Researcher at Arizona State University
Publications - 110
Citations - 3620
Gregory B. Raupp is an academic researcher from Arizona State University. The author has contributed to research in topics: Chemical vapor deposition & Deposition (phase transition). The author has an hindex of 33, co-authored 110 publications receiving 3493 citations. Previous affiliations of Gregory B. Raupp include Biodesign Institute & University of Wisconsin-Madison.
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Fluidized-bed photocatalytic oxidation of trichloroethylene in contaminated air streams
TL;DR: Gas-solid heterogeneous photocatalytic oxidation of trichloroethylene (TCE) in humid airstreams is achieved at high conversion levels in a bench-scale flat-plate fluidized-bed photoreactor, which provides efficient continuous contact of near-ultraviolet photons, silica-supported titania photocatalyst, and gaseous reactants as mentioned in this paper.
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Mössbauer investigation of supported Fe and FeNi catalysts: II. Carbides formed Fischer-Tropsch synthesis
Gregory B. Raupp,W.N. Delgass +1 more
TL;DR: In this paper, the complexity of the metastable Fe/FexC/C system is further exemplified in a series of spectra recorded at intermediate reaction times, demonstrating time dependency of carbide phases formed and dependence of the rate of carbides formation on average metal particle size.
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Mössbauer investigation of supported Fe catalysts: III. In situ kinetics and spectroscopy during Fischer-Tropsch synthesis
Gregory B. Raupp,W.N. Delgass +1 more
TL;DR: In situ constant velocity Mossbauer data have been used to measure the rate of carbiding of 10 Fe SiO 2 and 10 Fe MgO during the Fischer-Tropsch synthesis reaction at 523 °K and 3.3 H 2 CO as mentioned in this paper.
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Polyimide-based intracortical neural implant with improved structural stiffness
Keekeun Lee,Jiping He,Amarjit Singh,Stephen Massia,Gholamreza Ehteshami,Bruce Kim,Gregory B. Raupp +6 more
TL;DR: A novel structure for chronically implantable cortical electrodes using polyimide bio-polymer was devised, which provides both flexibility for micro-motion compliance between brain tissues and the skull and at the brain/implant interface and stiffness for better surgical handling.
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Adsorption of CO, CO2, H2, and H2O on titania surfaces with different oxidation states
TL;DR: The adsorptive properties of titania surfaces with different oxidation states were proved by temperature-programmed desorption (TPD) of CO, H2, CO2, and H2O.