2017
DOI: 10.1088/1361-6463/aa754e
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Carbon dioxide dissociation in non-thermal radiofrequency and microwave plasma

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Cited by 51 publications
(52 citation statements)
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“…This makes CO2 splitting on an industrial scale through RF-ICP viable [4]. In fact, such efficiencies are not quite reached at about 2.45 GHz, using microwave excitation [34]. The conversion of CO2 into CO can be further increased with 5%-8% by performing a pretreatment step prior of the start of CO2 splitting by RF-ICP ( see FIG.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…This makes CO2 splitting on an industrial scale through RF-ICP viable [4]. In fact, such efficiencies are not quite reached at about 2.45 GHz, using microwave excitation [34]. The conversion of CO2 into CO can be further increased with 5%-8% by performing a pretreatment step prior of the start of CO2 splitting by RF-ICP ( see FIG.…”
Section: Resultsmentioning
confidence: 99%
“…In their case the addition of a catalyst decreased the CO yield. Previously work from Spencer et al [32,34] showed that CO2 splitting via 13.56 MHz RF power source can reach CO2 conversions of 90% at 15 sccm CO2 and 1000 W (i.e. > 1000 eV/mol).…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, in several microwave plasma reactors used for CO 2 dissociation, ignition, and stabilization of the plasma is a main operational issue. Some investigations have relied on the use of an inert gas with low ionization energy, such as argon, to help ignite and stabilize the plasma, particularly when operating at high pressures . However, the microwave plasma reactor developed in this work is able to operate in a stable manner with undiluted CO 2 at high‐pressure conditions thanks to the electromagnetic wave confinement and stabilization by vorticial gas inflow.…”
Section: Gas‐phase Chemical Synthesismentioning
confidence: 99%
“…Huang et al [16] studied energy efficiency of carbon dioxide dissociation in inductively coupled radiofrequency plasma and microwave plasma at low gas pressure. They related the energy efficiency of these processes to the selectivity by which energy transfer from LTP to molecular CO 2 dissociation reaction channels can enable ladder climbing of the carbon dioxide molecular vibrations.…”
Section: Ultra-high Selectivity In Materials Processing: Atomic Layermentioning
confidence: 99%