Add to ORKGCatalyst compositions for production of higher alcohols comprise a hydrotalcite or hydrotalcite-like support impregnated with molybdenum and an alkali metal. When the compositions are used to convert syngas, selectivity to higher (C2+) alcohols is increased in comparison to conversions accomplished over many other catalyst systems.Georgia Tech Research Corporatio
A series of carbon-supported molybdenum-based catalysts was prepared by incipient wetness impregnati...
This work investigates the use of the bulk carbides Mo<sub>2</sub>C, WC, and NbC as catalysts for th...
With the increasing demands of energy, ethanol is actively considered as a promising alternative fue...
Catalyst compositions comprising molybdenum, sulfur and an alkali metal ion supported on a nanofibro...
The gradual depletion of oil resources and the necessity to reduce greenhouse gas emissions portray ...
The present thesis concerns catalytic conversion of syngas (H2+ CO) into a blend of methanol and hig...
The work on advanced fuel forms in 1996 focused on the synthesis of higher alcohols from mixtures of...
The work on advanced fuel forms in 1996 is focused in part on the synthesis of higher alcohols from ...
The work on advanced fuel forms in 1996 focused on the synthesis of higher alcohols from mixtures of...
The synthesis of higher alcohols from syngas is a very promising avenue as syngas can be derived fro...
The project objectives are: (1) To discover, study, and evaluate novel heterogeneous catalytic syste...
The selective conversion of syngas to higher alcohols is an attractive albeit elusive route in the q...
Conversion of syngas to mixed (C1-C5) and higher (C2+) alcohols over alkali-doped MoS2 (ADM) catalys...
The principal objectives of this project are to discover and evaluate novel heterogeneous catalysts ...
The principal objectives of this project are to discover and evaluate novel heterogeneous catalysts ...
A series of carbon-supported molybdenum-based catalysts was prepared by incipient wetness impregnati...
This work investigates the use of the bulk carbides Mo<sub>2</sub>C, WC, and NbC as catalysts for th...
With the increasing demands of energy, ethanol is actively considered as a promising alternative fue...
Catalyst compositions comprising molybdenum, sulfur and an alkali metal ion supported on a nanofibro...
The gradual depletion of oil resources and the necessity to reduce greenhouse gas emissions portray ...
The present thesis concerns catalytic conversion of syngas (H2+ CO) into a blend of methanol and hig...
The work on advanced fuel forms in 1996 focused on the synthesis of higher alcohols from mixtures of...
The work on advanced fuel forms in 1996 is focused in part on the synthesis of higher alcohols from ...
The work on advanced fuel forms in 1996 focused on the synthesis of higher alcohols from mixtures of...
The synthesis of higher alcohols from syngas is a very promising avenue as syngas can be derived fro...
The project objectives are: (1) To discover, study, and evaluate novel heterogeneous catalytic syste...
The selective conversion of syngas to higher alcohols is an attractive albeit elusive route in the q...
Conversion of syngas to mixed (C1-C5) and higher (C2+) alcohols over alkali-doped MoS2 (ADM) catalys...
The principal objectives of this project are to discover and evaluate novel heterogeneous catalysts ...
The principal objectives of this project are to discover and evaluate novel heterogeneous catalysts ...
A series of carbon-supported molybdenum-based catalysts was prepared by incipient wetness impregnati...
This work investigates the use of the bulk carbides Mo<sub>2</sub>C, WC, and NbC as catalysts for th...
With the increasing demands of energy, ethanol is actively considered as a promising alternative fue...