Wasserscheid P, Weiss T, Agel F (2008)
Publication Language: English
Publication Type: Conference contribution, Conference Contribution
Subtype: other
Publication year: 2008
Publisher: American Chemical Society
Pages Range: IEC-193
Conference Proceedings Title: Abstracts of Papers, 236th ACS National Meeting, Philadelphia, PA, United States, August 17-21, 2008
Event location: Philadelphia, PA
Rational and efficient conversion of methane to more useful higher hydrocarbons is an important topic in natural gas utilization. Today, methane activation is mostly carried out in an indirect way via transformation of methane to syngas (a mixt. of CO and hydrogen) which then is converted into higher hydrocarbons by Fischer-Tropsch synthesis or via methanol. A true alternative for indirect methane conversion is the use of chloromethane as the activated intermediate. In our labs. chloromethane has been found to react with Ga(0) suspended in an ionic liq./molten salt medium with very high selectivities (up to 97% of gaseous products) to isobutane. During the reaction hydrogen and anionic chlorogallate species of Ga(I) and Ga(III) are formed. The latter can be regenerated to Ga(0) electrochem. in a subsequent step using the molten salt medium as electrolyte. The chlorine liberated in the Ga(0) regeneration can be applied for the synthesis of the chloromethane feedstock from methane thus making this new reaction the potential key-step of a fundamentally new process chain for methane valorization. [on SciFinder(R)]
APA:
Wasserscheid, P., Weiss, T., & Agel, F. (2008). Highly efficient and selective C-H-activation in gallium containing molten salt systems: Toward a fundamentally new route for CH4 valorization. In Abstracts of Papers, 236th ACS National Meeting, Philadelphia, PA, United States, August 17-21, 2008 (pp. IEC-193). Philadelphia, PA, US: American Chemical Society.
MLA:
Wasserscheid, Peter, Tobias Weiss, and Friederike Agel. "Highly efficient and selective C-H-activation in gallium containing molten salt systems: Toward a fundamentally new route for CH4 valorization." Proceedings of the 236th ACS National Meeting, Philadelphia, PA American Chemical Society, 2008. IEC-193.
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