Solar-light-driven and magnetically recoverable doped nano-ferrite: an ideal photocatalyst for water purification applications

Title

Solar-light-driven and magnetically recoverable doped nano-ferrite: an ideal photocatalyst for water purification applications

Abstract

Semi-conductive photocatalysts have received a lot of interest for water treatment applications. This is due to their high efficiency and cost-effective nature. The challenge for material scientists is to design a semi-conductive material-based photocatalyst capable of protecting the environment and cleaning up hazardous waste water. The current study is centered on developing nanostructured Mn-doped cobalt ferrite as a photocatalytic material that is magnetically recyclable, active in visible light, stable at high temperatures, and has high conductivity. Then, using XRD, EDX, FT-IR, and SEM examination, the crystal structure, chemical composition, chemical functionality, and morphology of the wet-chemically synthesized undoped and Mn-doped ferrite samples were compared. Through the completion of TGA, I-V, UV–Vis, impedance, and transient photocurrent experiments, the requisite characteristics of the as-prepared ferrite materials, such as thermal stability, electrical conductivity, light-harvesting capability, charge transport performance, and charge separation efficiency, were also investigated. We used undoped and Mn-doped cobalt ferrite materials for the visible-light-driven crystal violet (CV) dye mineralization. However, the Mn-doped cobalt ferrite sample did a pretty good job as a photocatalyst and mineralized 95.8% CV dye (10 ppm) in just 40 min at a rate of 0.058 min−1. The doped ferrite sample was completely recovered from the photocatalytic system after each recyclability test due to its magnetic characteristics. Even after the four consecutive cycles, it maintained 97.2% of its original photocatalytic activity. The current work looks into the possibility of combining a semi-conductive catalyst's surface, magnetic, mechanical, and optical functions to clean up wastewater cost-effectively.

Scientific Type

غير معروف

Link

https://www.sciencedirect.com/science/article/abs/pii/S0925346722012290

Journal volume

vol.135,113192

Collaboration type

مشترك

Publish Date

November 26, 2022

Participated Universities (Publication)

Alnoor University

The University of Lahore

AL Farahidi University

The Islamia University of Bahawalpur

The Women University Multan

Ahl AL Bayt University

King Khalid University

National University of Laos

King Abdulaziz University

PMAS Arid Agriculture University

Scopus status

In Scopus

Scopus index year

2 023

Scopus quarter

2

Scopus citation score

6.199999809

Clarivate status

In Clarivate

Clarivate index year

2 023

Clarivate impafact

3.753999949

Pub. Med. status

Not In PubMed

Author (Publication)

انمار غانم تقي إبراهيم

Journal (Publication)

Optical Materials

Publisher (Publication)

Elsevier

ISSN

0925-3467

Country (Publication)

Netherlands

Country type

عالمية

College (Publication)

College of Health and Medical Technologies

Departement (Publication)

Department of Radiology