Hydrothermal fabrication and characterization of novel CeO2/PbWO4 nanocomposite for enhanced visible-light photocatalytic performance

Abstract: In this revision, a series of novel visible-light-driven (VLD) CeO2/PbWO4 nanocomposites (NCs) were effectively fabricated by facile hydrothermal preparation way. The UV–Vis absorption spectra exposed that CeO2 NPs prolonged the adsorption edge of the CeO2/PbWO4 composite to the extensive visible region, which allied to decreases of the bandgap. As-prepared CeO2/PbWO4 NCs revealed superior photocatalytic action under visible-light and could degrade the Methylene Blue (MB) dye solution in 140 min. The photodegr… Show more

“…The rGO species serve as superior e − acceptors and mediators, improving the photoinduced e − transfer and preventing the recombination of photoinduced e − /H + pairs. The novel CeO 2 /PbWO 4 nanocomposite heterojunction semiconductor photocatalysts that were activated by UV and/or visible-light irradiation were fabricated via a simplistic hydrothermal method to effectively photodegrade the Methylene Blue (MB) dye [111]. This CeO 2 /PbWO 4 heterojunction demonstrated the significant photodegradation efficacy of about 94% toward MB aqueous dye during 140 min of irradiation in visible light, which is considerably higher than that of traditional ones.…”

“…This CeO 2 /PbWO 4 heterojunction demonstrated the significant photodegradation efficacy of about 94% toward MB aqueous dye during 140 min of irradiation in visible light, which is considerably higher than that of traditional ones. This CeO 2 /PbWO 4 heterojunction possesses excellent charge separation/transfer, decreased bandgap, and powerful visiblelight absorption since it inhibits the photoexcited charge recombination [111].…”

Hydrogen Production as a Clean Energy Carrier through Heterojunction Semiconductors for Environmental Remediation

“…The rGO species serve as superior e − acceptors and mediators, improving the photoinduced e − transfer and preventing the recombination of photoinduced e − /H + pairs. The novel CeO 2 /PbWO 4 nanocomposite heterojunction semiconductor photocatalysts that were activated by UV and/or visible-light irradiation were fabricated via a simplistic hydrothermal method to effectively photodegrade the Methylene Blue (MB) dye [111]. This CeO 2 /PbWO 4 heterojunction demonstrated the significant photodegradation efficacy of about 94% toward MB aqueous dye during 140 min of irradiation in visible light, which is considerably higher than that of traditional ones.…”

“…This CeO 2 /PbWO 4 heterojunction demonstrated the significant photodegradation efficacy of about 94% toward MB aqueous dye during 140 min of irradiation in visible light, which is considerably higher than that of traditional ones. This CeO 2 /PbWO 4 heterojunction possesses excellent charge separation/transfer, decreased bandgap, and powerful visiblelight absorption since it inhibits the photoexcited charge recombination [111].…”

Hydrogen Production as a Clean Energy Carrier through Heterojunction Semiconductors for Environmental Remediation

Hydrothermal Green Synthesis of Aloe Vera Gel-Biotemplated Iron Oxide Nanoparticles for Robust Photocatalytic Degradation of Methylene Blue, Chromium (VI) Reduction, and Antibacterial Efficacy

Tailoring the characteristics of CeO2 nanoparticles doped ZrC nanostructures for photodetectors nanodevices