期刊
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
卷 60, 期 7, 页码 3529-3533出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/anie.202013671
关键词
alkanes; alkenes; Brø nsted acid sites; dimerization; zeolites
资金
- German Research Foundation (DFG)
- Fonds der Chemischen Industrie
- Norddeutscher Verbund fur Hoch- und Hochstleistungsrechnen (HLRN) [bec00160]
- Studienstiftung des deutschen Volkes
- Projekt DEAL
- Reinhart Koselleck grant
Quantum chemical evidence demonstrates that dimerization of linear butenes and pentenes at zeolitic Bronsted sites in H-MFI results in the formation of alkanes featuring cyclohexane rings instead of branched alkenes. Calculations show close agreement between the calculated reaction enthalpies for cyclic alkanes and the experimental values, while branched alkoxide formation enthalpy deviates significantly from experiment. Additionally, calculated IR spectra reveal the observed conversion of the OH group, indicating changes in interactions with alkenes and alkanes.
Quantum chemical evidence is produced to show that dimerization of linear butenes and pentenes at zeolitic Bronsted sites in H-MFI yields alkanes featuring cyclohexane rings rather than branched alkenes. The absence of any C=C double bond in the formed cyclic alkane explains the observations that oligomerization stops at the dimer. The calculated reaction enthalpies for the dimerization of 2-pentene in the gas phase are -84 kJ mol(-1) for branched alkenes, but -153 and -154 kJ mol(-1) for alkyl-cyclopentane and -hexane, respectively. Together with calculated adsorption enthalpies of the dimers, -111 and -127 kJ mol(-1), respectively, this implies surface dimer formation enthalpies of -264 and -281 kJ mol(-1), respectively, in close agreement with the experimental value of -285 kJ mol(-1). In contrast, the predicted enthalpy for formation of branched alkoxides, -198 kJ mol(-1), deviates by 87 kJ mol(-1) from experiment. Calculated IR spectra for the Bronsted OH group show the observed conversion of the band at approximately 3000 cm(-1) (hydrogen bond with alkene) to a less intense band at approximately 3450-3500 cm(-1) (interaction with alkane).
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