Affiliation:
1. School of Mechanical and Materials Engineering Indian Institute of Technology Mandi Mandi Himachal Pradesh India
2. Department of Physics Faculty of Science King Khalid University Abha Saudi Arabia
Abstract
AbstractThe mechanochemical ball milling process at 650°C for 5 h formed the single‐phase Bi2VO5.5 powder, which was tested as a catalyst for methylene blue (MB) dye degradation. X‐ray diffraction validated phase formation. A scanning electron microscope inspection verified the presence of grains with irregular shapes. Piezocatalytic MB dye degradation with a .4 g BV sample was ∼67% after 90 min in a ball mill and ∼49% after 180 min in an ultrasonicator. Utilizing a .4 g BV sample, the 90‐min investigation of piezocatalysis using a ball mill showed an 18% increase in degrading performance compared to the findings of the 180‐min study of piezocatalysis using ultrasonication. Ball mill employed piezocatalysis evaluation utilizing .4 g Bi2VO5.5 with 15 balls produces an excellent k value of .0109 min−1. Based on the results of a scavenger test, hole (h+) is the primary species in the ball mill‐induced piezocatalysis.