Preparation and luminescence properties of ZnWO4: Tb3+/Yb3+ glass ceramics

“…Among the tungsten metal tungstates mentioned earlier, ZnWO 4 has been widely studied as an important new semiconductor photocatalyst, photoluminescence material, and electronic material due to its high crystal density, short radiation length, excellent light performance, good radiation damage resistance, small afterglow, and nonliquefaction. [ 29 ] At present, ZnWO 4 is the most widely used photocatalyst to degrade pollutants in water. In addition, ZnWO 4 nanoarray structure can provide a large specific surface area, fast ion diffusion channel, and more active sites, which is very suitable for the development of high‐performance supercapacitor electrode materials.…”

Synthesis Methods and Applications of Semiconductor Material ZnWO₄ with Multifunctions and Multiconstructions

“…Among the tungsten metal tungstates mentioned earlier, ZnWO 4 has been widely studied as an important new semiconductor photocatalyst, photoluminescence material, and electronic material due to its high crystal density, short radiation length, excellent light performance, good radiation damage resistance, small afterglow, and nonliquefaction. [ 29 ] At present, ZnWO 4 is the most widely used photocatalyst to degrade pollutants in water. In addition, ZnWO 4 nanoarray structure can provide a large specific surface area, fast ion diffusion channel, and more active sites, which is very suitable for the development of high‐performance supercapacitor electrode materials.…”

Synthesis Methods and Applications of Semiconductor Material ZnWO₄ with Multifunctions and Multiconstructions

Tunable emission properties and significant improvement in scintillation response of Er3+/Tb3+-doped ZnWO4 scintillators