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Lattice oxygen of PbO<sub>2</sub> induces crystal facet dependent electrochemical ozone production

Wenbin Jiang, Shibin Wang, Jia Liu, Haiyang Zheng, Yu Gu, Wenwen Li, Huaijie Shi, Suiqin Li, Xing Zhong, Jianguo Wang

2021Journal of Materials Chemistry A62 citationsDOI

Abstract

β-PbO<sub>2</sub>-120 nanorods exhibited outstanding ozone output and high Faraday efficiency for electrochemical ozone production. The influence of lattice oxygen and the mechanism of the facet effect were investigated <italic>via in situ</italic> DEMS and DFT calculation.

Topics & Concepts

OzoneNanorodElectrochemistryFacet (psychology)Crystal structureOxygen evolutionLattice (music)OxygenMaterials scienceFaraday cageCrystallographyChemistryNanotechnologyPhysical chemistryPhysicsElectrodeQuantum mechanicsPersonalityMagnetic fieldSocial psychologyOrganic chemistryPsychologyBig Five personality traitsAcousticsPerovskite Materials and ApplicationsAdvanced Photocatalysis TechniquesGas Sensing Nanomaterials and Sensors
Lattice oxygen of PbO<sub>2</sub> induces crystal facet dependent electrochemical ozone production | Litcius