We report here a novel, sensitive detection method for nitrogen dioxide (NO 2 ) using thin films of CdSe/ZnS coreshell type quantum dots (QDs) with and without noble metal (NM) nanoparticles (Au, Pt, or Pt-Pd alloy) deposited on a glass substrate. The photoluminescence (PL) intensity of the QD-only film and NM-QD composite films with porous microstructure rapidly decreased on exposure to NO 2 (1100 ppm) in air, and it reversibly recovered after the atmosphere was changed back to air without NO 2 . Interestingly, the Au-QD, Pt-QD, and Pt-Pd-QD films showed higher sensitivity when compared with the QD-only film. The reversible responses of QDonly film, Au-QD film, Pt-QD film, and Pt-Pd-QD film to NO 2 in air suggested that the CdSe/ZnS QD film and NM-QD films could be promising PL-based optical NO 2 sensors. Furthermore, the high NO 2 sensitivity, but low ozone sensitivity, in the Pt-Pd-QD film suggests the possibility of recognizing these two oxidizing gases by using the gas-selective catalytic activity of Pd.
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