High-entropy selenide catalyst for degradation of organic pollutants

Chia Tzu Li, Ching Yu Chiang, Ching Ting Chiu, Mei Ling Yu, An Ya Lo, Wei Chun Lin, Hyeonseok Lee, Ying Tsang Lu, Hsiang Chiu Wu, Wei Hsuan Hung

Research output: Contribution to journalArticlepeer-review

Abstract

In this study, pollution from sewage was addressed using a novel high-entropy material to decompose organic pollutants containing azo groups. Se_(AlCrCuFeNi) (Se_HEC) nanomaterials were employed as an active catalyst to restore organic pollution in aqueous solutions by using the electro-Fenton technique. The efficacy of Se_HEC catalysts in degrading pollutants during the electro-Fenton reaction and the potential of functionalized high-entropy materials to decompose pollutants were investigated. The Se_HEC material was synthesized through rapid calcination followed by selenization. This Se_HEC cathode demonstrated a remarkable removal efficiency of 98% for methyl orange in aqueous solutions and high stability in an acidic environment with a pH of 3. Additionally, the effects of various parameters, such as applied current and pH, were assessed. The results revealed that an increase in the current led to a higher reaction rate for the entire process, with the optimal conditions occurring at pH 3. The potential methyl orange degradation pathway was elucidated through a reactive oxygen species (ROS) test conducted during the electro-Fenton process.

Original languageEnglish
Article number118106
JournalJournal of Electroanalytical Chemistry
Volume957
DOIs
StatePublished - 15 Mar 2024

Keywords

  • Electro-Fenton reaction
  • Electrocatalysis
  • High-entropy ceramics
  • Production
  • Selenides
  • Water pollution degradation

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