Hydrothermally engineered WO3 nanoflowers: A selective detection towards toxic NO2 gas

Nanoflowers (NFs) of WO3 is decorated on glass substrate by inexpensive hydrothermal method at very low temperatures (80 and 100 degrees C). The structural investigations are studied through X-ray diffraction and surface morphological study of WO3 NFs were examined using transmission electron microscopy, field emission scanning electron microscopy, Brunauer- Emmett-Teller, and X-ray photoelectron spectroscopy technique. WO3 NFs exhibited hexagonal crystal structure. The porous structure of WO3 NFs possessing a specific surface area of 38.13 m2/g. WO3 NFs (W6 sample) shows remarkable gas sensing towards toxic NO2 gas (225% response for 100 ppm at operating temperature 200 degrees C). WO3 NFs exhibits excellent reproducibility and stability (80%). An interaction mechanism of gas and WO3 NFs studied using an impedance spectroscopy.