Amy F. Gaudette scite author profile

Aerogels are low-density porous materials, made mostly of air, for which hundreds of applications have been found in recent years. Inorganic oxide-based aerogels have been known for a long time, carbon aerogels were discovered in the early 1990s and sulfur- and selenium-based aerogels (chalcogels) are the most recent additions to this family. Here we present new aerogels made of Co(Ni)-Mo(W)-S networks with extremely large surface areas and porosity. These systems are formed by the coordinative reactions of (MoS(4))(2-) and (WS(4))(2-) with Co(2+) and Ni(2+) salts in non-aqueous solvents. We show that these low-density sponge-like networks can absorb conjugated organic molecules and mercury ions, and preferentially adsorb CO(2) over H(2), which illustrates their high potential as gas-separation media. The chalcogels are shown to be twice as active as the conventional sulfided Co-Mo/Al(2)O(3) catalyst for the hydrodesulfurization of thiophene.

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Hydrodesulfurization properties of cobalt–nickel phosphide catalysts: Ni-rich materials are highly active

Burns

Gaudette

Bussell

2008

Journal of Catalysis

111

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Hydrodesulfurization properties of rhodium phosphide: Comparison with rhodium metal and sulfide catalysts

Hayes

Bowker

Gaudette

et al. 2010

Journal of Catalysis

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Mössbauer spectroscopy investigation and hydrodesulfurization properties of iron–nickel phosphide catalysts

Gaudette

Burns

Hayes

et al. 2010

Journal of Catalysis

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Amy F. Gaudette

Spongy chalcogels of non-platinum metals act as effective hydrodesulfurization catalysts

Hydrodesulfurization properties of cobalt–nickel phosphide catalysts: Ni-rich materials are highly active

Hydrodesulfurization properties of rhodium phosphide: Comparison with rhodium metal and sulfide catalysts

Mössbauer spectroscopy investigation and hydrodesulfurization properties of iron–nickel phosphide catalysts

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