Carbon dioxide reforming of methane to synthesis gas over Ni-MCM-41 catalysts

Applied Catalysis A: General

Volumn 358, Issue 2, 2009, Pages 110-118

  Liu, Dapeng ^a   Lau, Raymond ^a   Borgna, Armando ^b   Yang, Yanhui ^a  

^a Nanyang Technological University   (Singapore)

^b INSTITUTE OF CHEMICAL AND ENGINEERING SCIENCES   (Singapore)

Author keywords

Anchoring effect; Carbon dioxide; Methane; Ni MCM 41; Reforming; Stability

Indexed keywords

CARBON DIOXIDE; CARBON MONOXIDE; CATALYSIS; CHEMISORPTION; ELECTROCHEMICAL SENSORS; GRAPHITE; HYDROGEN; HYDROTHERMAL SYNTHESIS; MESOPOROUS MATERIALS; METHANE; MOLECULAR SIEVES; NICKEL; NICKEL ALLOYS; PHYSISORPTION; REFORMING REACTIONS; SIEVES; SILICA; STABILITY; SYNTHESIS GAS; SYNTHESIS GAS MANUFACTURE;

ACTIVE CARBONS; ACTIVE CENTERS; ACTIVE SITES; ANCHORING EFFECT; CARBON DIOXIDE REFORMING OF METHANES; CARBON FORMATIONS; CARBON SPECIES; CATALYTIC ACTIVITIES; CATALYTIC PERFORMANCE; CATALYTIC PROPERTIES; HIGH DISPERSIONS; HIGH STABILITIES; LONG-TERM STABILITIES; MESOPOROUS MOLECULAR SIEVES; NANO-CLUSTERS; NI-MCM-41; NICKEL IONS; NICKEL NITRATES; PORE WALL SURFACES; RAMAN SPECTRUM; REACTION CONDITIONS; REFORMING; REFORMING OF METHANES; SILICA MATRICES; SPENT CATALYSTS; STABILIZED DISPERSIONS; STABLE CATALYSTS; TEMPERATURE-PROGRAMMED REDUCTIONS; THERMOGRAVIMETRY; X-RAY DIFFRACTIONS;

CATALYST ACTIVITY;

EID: 63249102418     PISSN: 0926860X     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apcata.2008.12.044     Document Type: Article

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