Facile Synthesis of SnO(2)/LaFeO(3−X)N(X) Composite: Photocatalytic Activity and Gas Sensing Performance

Here SnO(2)/LaFeO(3−X)N(X) composite was fabricated using a wet chemical method and was applied to pollutants degradation and gas sensing for the first time. The composite exhibits high performance for photocatalytic degradation of Rhodamine B (RhB) dye and selectivity sensing of various gases. On the basis of the completed experiments, the improved RhB degradation and selective gas sensing performance resulted from the extended optical absorption via N(2) incorporated surface states and enhanced charge separation via coupling SnO(2). Using the scavengers trapping experiments, the superoxide radical (O(2)(•−)) was investigated as the major scavenger involved in the degradation of RhB over SnO(2)/LaFeO(3−X)N(X) composite. In this paper, the probable reaction steps involved in the RhB dye degradation over SnO(2)/LaFeO(3−X)N(X) composite are proposed. This work will provide reasonable strategies to fabricate LaFeO(3)-based proficient and stable catalysts for environmental purification. In addition, the result of the selectivity of gas performance is also presented.