C
Christopher J. Kiely
Researcher at Lehigh University
Publications - 389
Citations - 33224
Christopher J. Kiely is an academic researcher from Lehigh University. The author has contributed to research in topics: Catalysis & Nanoparticle. The author has an hindex of 84, co-authored 374 publications receiving 29156 citations. Previous affiliations of Christopher J. Kiely include Rice University & University of Liverpool.
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Journal ArticleDOI
Partial Oxidation of Ethane to Oxygenates Using Fe- and Cu-Containing ZSM-5
Michael M. Forde,Robert Armstrong,Ceri Hammond,Qian He,Robert Leyshon Jenkins,Simon A. Kondrat,Nikolaos Dimitratos,Jose Antonio Lopez-Sanchez,Stuart Hamilton Taylor,David J. Willock,Christopher J. Kiely,Graham J. Hutchings +11 more
TL;DR: It is demonstrated that ethene is also formed and can be subsequently oxidized, and the mechanism of ethane oxidation involves carbon-based radicals, which lead to the high conversions the authors observe.
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Microstructural Development and Catalytic Performance of Au−Pd Nanoparticles on Al2O3 Supports: The Effect of Heat Treatment Temperature and Atmosphere
Andrew A. Herzing,Albert Frederick Carley,Jennifer K. Edwards,Graham J. Hutchings,Christopher J. Kiely +4 more
TL;DR: In this paper, a series of Au−Pd/Al2O3 catalysts, subjected to a variety of heat treatments, have been examined by STEM-XEDS and XPS in an effort to track the microstructural development of the bimetallic particles.
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Synergy between tungsten and palladium supported on titania for the catalytic total oxidation of propane
Marie N. Taylor,Wu Zhou,Tomás García,Benjamín Solsona,Albert Frederick Carley,Christopher J. Kiely,Stuart Hamilton Taylor +6 more
TL;DR: In this article, the titania-supported palladium catalysts modified by tungsten have been tested for the total oxidation of propane, and it was shown that the addition of Tungsten significantly enhanced the catalytic activity.
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Single-enzyme biomineralization of cadmium sulfide nanocrystals with controlled optical properties
TL;DR: The first report to the authors' knowledge of a single enzyme capable of both catalyzing mineralization in otherwise unreactive solution and of templating nanocrystal growth is described, demonstrating the powerful potential of engineered functional material biomineralization.
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The characterization of an SCS6/Ti–6Al–4V MMC interphase
TL;DR: Using TEM, Auger spectroscopy, EDX, and convergent beam electron diffraction, a thorough characterization of the interphase region between SCS6 fibers and Ti-6Al-4V matrix in a metal matrix composite has been performed as discussed by the authors.