Add to ORKGSamples of 1% Pt/SnO2 catalyst were exposed to a stoichiometric gas mixture of 1% CO and 1.2% O2 in helium over a range of flowrates from 5 to 15 sccm and temperatures from 338 to 394 Kelvin. Reaction rate constants for the catalytic oxidation of carbon monoxide and their temperature dependence were determined and compared with previous literature values
Closed-cycle pulsed CO2 laser operation requires the use of an efficient CO-O2 recombination catalys...
Ozone formation in vacuum ultraviolet photolysis of carbon dioxide in closed syste
Temperature-programmed reduction using 6kPaH2 suggests that a sample consisting of 3 percent Pt supp...
CO oxidation catalysts with high activity at 25 to 100 C are important for long life, closed cycle o...
Long-life, closed-cycle operation of pulsed CO2 lasers requires catalytic CO-O2 recombination both t...
This paper outlines some of the steps involved in the development by the United Kingdom Atomic Energ...
The low temperature CO oxidation catalysts that are being developed and tested at NASA-Langley are f...
Closed-cycle CO2 laser testing with and without a catalyst and with and without CO addition indicate...
Noble-metal/tin-oxide based catalysts such as Pt/SnO2 have been shown to be good catalysts for the e...
The general subject area of the project involved the development of solid catalysts that have high a...
Oxidation catalysts which operate at ambient temperature were developed for the recombination of car...
Uncertainties in surface catalytic reaction rates in a CO2 plasma have led to overdesign of thermal ...
CO removal from spacecraft gas streams was evaluated for three commercial, low temperature oxidation...
A commercial platinized tin oxide catalyst used for low-temperature CO oxidation has been characteri...
Four different catalysts have been developed specifically for use in sealed carbon dioxide lasers. T...
Closed-cycle pulsed CO2 laser operation requires the use of an efficient CO-O2 recombination catalys...
Ozone formation in vacuum ultraviolet photolysis of carbon dioxide in closed syste
Temperature-programmed reduction using 6kPaH2 suggests that a sample consisting of 3 percent Pt supp...
CO oxidation catalysts with high activity at 25 to 100 C are important for long life, closed cycle o...
Long-life, closed-cycle operation of pulsed CO2 lasers requires catalytic CO-O2 recombination both t...
This paper outlines some of the steps involved in the development by the United Kingdom Atomic Energ...
The low temperature CO oxidation catalysts that are being developed and tested at NASA-Langley are f...
Closed-cycle CO2 laser testing with and without a catalyst and with and without CO addition indicate...
Noble-metal/tin-oxide based catalysts such as Pt/SnO2 have been shown to be good catalysts for the e...
The general subject area of the project involved the development of solid catalysts that have high a...
Oxidation catalysts which operate at ambient temperature were developed for the recombination of car...
Uncertainties in surface catalytic reaction rates in a CO2 plasma have led to overdesign of thermal ...
CO removal from spacecraft gas streams was evaluated for three commercial, low temperature oxidation...
A commercial platinized tin oxide catalyst used for low-temperature CO oxidation has been characteri...
Four different catalysts have been developed specifically for use in sealed carbon dioxide lasers. T...
Closed-cycle pulsed CO2 laser operation requires the use of an efficient CO-O2 recombination catalys...
Ozone formation in vacuum ultraviolet photolysis of carbon dioxide in closed syste
Temperature-programmed reduction using 6kPaH2 suggests that a sample consisting of 3 percent Pt supp...