Markus Hilgart scite author profile

Dehydrogenation of ethylbenzene to styrene is one of the most important catalytic processes in chemical industry. While it was demonstrated that nanocarbons like nanotubes, nanodiamond or nanographite show high performance, especially selectivity, these powders give rise to handling problems, high pressure drop, hampered heat and mass transfer, and unclear health risks. More common macroscopic carbon materials like activated carbons show unsatisfying selectivity below 80%. In this study mesoporous, graphitic and easy to handle carbon powders were synthesized based on the reactive extraction of titanium carbide in a novel temperature regime. This resulted in extraordinary properties like a mean pore diameter of up to 8 nm, pore volumes of up to 0.90 ml g -1 and graphite crystallite sizes exceeding 25 nm. Exceptional styrene selectivities of up to 95% were observed for materials synthesized above 1300 °C and pretreated with nitric acid. Furthermore, the long-term stability of these non-nanocarbon catalysts could be demonstrated for the first time during 120 h time-on-stream.

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Polymer grafted graphitic carbon nitrides as precursors for reinforced lubricant hydrogels

Kumru

Molinari

Hilgart³

et al. 2019

Polym. Chem.

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New Mesoporous Carbons by High‐Temperature Reactive Extraction of Carbides

Etzold

Gläsel

Hilgart

et al. 2014

Chemie Ingenieur Technik

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Markus Hilgart

Mesoporous and Graphitic Carbide-Derived Carbons as Selective and Stable Catalysts for the Dehydrogenation Reaction

Polymer grafted graphitic carbon nitrides as precursors for reinforced lubricant hydrogels

New Mesoporous Carbons by High‐Temperature Reactive Extraction of Carbides

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