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Supported precious metals with atomic dispersion are of great interest in catalysis due to their potentials in achieving maximum atom efficiency and unique reactivities. Herein, the active sites for low-temperature CO oxidation are elucidated over single-atom Pd1/CeO2 catalysts prepared via high-temperature atom trapping (AT). The increased oxygen vacancies on CeO2 surface induced by 800 °C air calcination result in decreased Pd–CeO2 coordinations, i.e., the coordination-unsaturated Pd2+ on CeO2. Light-off and light-out measurements coupled with CO-DRIFTS and X-ray absorption characterization confirm that these coordination-unsaturated Pd2+ on CeO2 are much more reactive than the fully coordinated counterpart, evidenced by a decrease of T90 (temperature to achieve 90% conversion) by ∼100 °C in CO oxidation at a gas hourly space velocity of 300 L g–1 h–1.
Jiang et al. (Thu,) studied this question.