Cost-effective production of tio2 with 90-fold enhanced photocatalytic activity via facile sequential calcination and ball milling post-treatment strategy

Anantha Iyengar Gopalan, Jun Cheol Lee, Gopalan Saianand, Kwang Pill Lee, Woo Young Chun, Yao Long Hou, Venkatramanan Kannan, Sung Sik Park, Wha Jung Kim

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

Titanium dioxide (TiO2), the golden standard among the photocatalysts, exhibits a varying level of photocatalytic activities (PCA) amongst the synthetically prepared and commercially available products. For commercial applications, superior photoactivity and cost-effectiveness are the two main factors to be reckoned with. This study presents the development of simple, cost-effective post-treatment processes for a less costly TiO2 to significantly enhance the PCA to the level of expensive commercial TiO2 having demonstrated superior photoactivities. We have utilized sequential calcination and ball milling (BM) post-treatment processes on a less-costlier KA100 TiO2 and demonstrated multi-fold (nearly 90 times) enhancement in PCA. The post-treated KA100 samples along with reference commercial samples (P25, NP400, and ST01) were well-characterized by appropriate instrumentation and evaluated for the PCA considering acetaldehyde photodegradation as the model reaction. Lattice parameters, phase composition, crystallite size, surface functionalities, titanium, and oxygen electronic environments were evaluated. Among post-treated KA100, the sample that is subjected to sequential 700 °C calcination and BM (KA7-BM) processes exhibited 90-fold PCA enhancement over pristine KA100 and the PCA-like commercial NP400 (pure anatase-based TiO2). Based on our results, we attribute the superior PCA for KA7-BM due to the smaller crystallite size, the co-existence of mixed anatase-srilankite-rutile phases, and the consequent multiphase heterojunction formation, higher surface area, lattice disorder/strain generation, and surface oxygen environment. The present work demonstrates a feasible potential for the developed post-treatment strategy towards commercial prospects.

Original languageEnglish
Article number5072
Pages (from-to)1-15
Number of pages15
JournalMaterials
Volume13
Issue number22
DOIs
StatePublished - 2 Nov 2020

Keywords

  • Ball milling
  • Calcination
  • Low-cost
  • Post-treatment
  • Titanium dioxide

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