Growth of Nanoscale Carbon Structures and Their Corresponding Hydrogen Uptake Properties |
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| Authors: | D LUPU A R BIRIS I MISAN N LUPSA A S BIRIS D A BUZATU |
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| Affiliation: | 1. National Institute for Research and Development of Isotopic, and Molecular Technologies (NIRDIMT), Special Materials Department, Cluj-Napoca, Romania;2. University of Arkansas at Little Rock, Applied Science Department, Little Rock, Arkansas, USA;3. National Center for Toxicology Research, Division of Chemistry, Jefferson, Arkansas, USA |
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| Abstract: | Carbon nanostructures have been synthesized using the chemical vapor deposition technique (CVD) on different catalysts, using ethylene, acetylene, or methane as the hydrocarbons. Morphological characterizations obtained using a scanning electron microscope (SEM) showed that the reaction products are carbon nanofibers (CNF) with an outer diameter that depends on the reaction conditions and nature of the reactants. Hydrogen uptake measurements, performed volumetrically in a Sievert-type installation, showed the quantity of desorbed hydrogen (for pressure intervals ranging from 1 to 100 bars) depends on the synthesis conditions and the treatment preceding the hydrogen absorption process. For carbon nanotubes that were preparedaccording to literature guidelines and obtained from ethylene on a Ni:Cu catalyst, the amounts of absorbed hydrogen were less than 1% by weight. carbon nanostructures chemical vapor deposition hydrogen absorption SEM |
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