2022
DOI: 10.3390/ijerph192214737
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Soot Combustion over Cu–Co Spinel Catalysts: The Intrinsic Effects of Precursors on Catalytic Activity

Abstract: In this work, a series of CuCo2O4-x (x = N, A and C) catalysts were synthesized using different metal salt precursors by urea hydrothermal method for catalytic soot combustion. The effect of CuCo2O4-x catalysts on soot conversion and CO2 selectivity in both loose and tight contact mode was investigated. The CuCo2O4-N catalyst exhibited outstanding catalytic activity with the characteristic temperatures (T10, T50 and T90) of 451 °C, 520 °C and 558 °C, respectively, while the CO2 selectivity reached 98.8% during… Show more

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Cited by 2 publications
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“…The oxygen desorption peak in the temperature range of 50–300 °C corresponds to physically adsorbed oxygen (labeled as α 1 -O 2 ), while the desorption peak between 300–500 °C corresponds to chemically adsorbed oxygen species (labeled as α 2 -O 2 ). The oxygen desorption peaks above 500 °C belonged to the lattice oxygen species (labeled as β-O 2 ) [ 34 ]. It was well-established that adsorbed oxygen species played a pivotal role in catalytic oxidation reactions [ 35 ].…”
Section: Resultsmentioning
confidence: 99%
“…The oxygen desorption peak in the temperature range of 50–300 °C corresponds to physically adsorbed oxygen (labeled as α 1 -O 2 ), while the desorption peak between 300–500 °C corresponds to chemically adsorbed oxygen species (labeled as α 2 -O 2 ). The oxygen desorption peaks above 500 °C belonged to the lattice oxygen species (labeled as β-O 2 ) [ 34 ]. It was well-established that adsorbed oxygen species played a pivotal role in catalytic oxidation reactions [ 35 ].…”
Section: Resultsmentioning
confidence: 99%