Robust and highly active Ni-based bimetallic catalysts supported on mesoporous carbon have been developed for catalytic conversion of cellulose to hexitols, over which the maximum hexitol yield reached 59.8%
MESOPOROUS CARBON AND CARBON-BASED NANOCOMPOSITES AS CATALYST SUPPORTS FOR CELLULOSE CONVERSION INTO...
Tungsten carbide and nickel promoted tungsten oxide catalysts supported on CNTs and AC were prepared...
Carbon-based materials are some of the most commonly studied catalysts for the conversion of cellulo...
Mesoporous carbon (MC) [8] presents unique advantages over conventional carbon materials due to its ...
Hydrogenation of cellulose to hexitol with mesoporous carbon supported nickel based catalyst
Sorbitol is one of the key platform chemicals that can be applied to several industrial applications...
The author examines the catalytic activity of bimetallic supported catalysts in the hydrodeoxygenati...
The author examines the catalytic activity of bimetallic supported catalysts in the hydrodeoxygenati...
A highly active and selective Ni/ZSM-5 catalyst was prepared by a simple method. A selectivity of 91...
Carbon-based materials are some of the most commonly studied catalysts for the conversion of cellulo...
The hydrogenolysis of cellulose was systematically investigated at 488 K and under 65 bar H2 in the ...
The hydrogenolysis of cellulose was systematically investigated at 488 K and under 65 bar H2 in the ...
The bi-functional Ni-W@C catalysts were prepared by one-pot reduction-carbonization method and used ...
In our previous work, we reported that Ni-promoted tungsten carbide functioned as a highly active an...
A series of metallic catalysts were evaluated in the catalytic conversion of cellulose in the aqueou...
MESOPOROUS CARBON AND CARBON-BASED NANOCOMPOSITES AS CATALYST SUPPORTS FOR CELLULOSE CONVERSION INTO...
Tungsten carbide and nickel promoted tungsten oxide catalysts supported on CNTs and AC were prepared...
Carbon-based materials are some of the most commonly studied catalysts for the conversion of cellulo...
Mesoporous carbon (MC) [8] presents unique advantages over conventional carbon materials due to its ...
Hydrogenation of cellulose to hexitol with mesoporous carbon supported nickel based catalyst
Sorbitol is one of the key platform chemicals that can be applied to several industrial applications...
The author examines the catalytic activity of bimetallic supported catalysts in the hydrodeoxygenati...
The author examines the catalytic activity of bimetallic supported catalysts in the hydrodeoxygenati...
A highly active and selective Ni/ZSM-5 catalyst was prepared by a simple method. A selectivity of 91...
Carbon-based materials are some of the most commonly studied catalysts for the conversion of cellulo...
The hydrogenolysis of cellulose was systematically investigated at 488 K and under 65 bar H2 in the ...
The hydrogenolysis of cellulose was systematically investigated at 488 K and under 65 bar H2 in the ...
The bi-functional Ni-W@C catalysts were prepared by one-pot reduction-carbonization method and used ...
In our previous work, we reported that Ni-promoted tungsten carbide functioned as a highly active an...
A series of metallic catalysts were evaluated in the catalytic conversion of cellulose in the aqueou...
MESOPOROUS CARBON AND CARBON-BASED NANOCOMPOSITES AS CATALYST SUPPORTS FOR CELLULOSE CONVERSION INTO...
Tungsten carbide and nickel promoted tungsten oxide catalysts supported on CNTs and AC were prepared...
Carbon-based materials are some of the most commonly studied catalysts for the conversion of cellulo...
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