Synthesis and characterization of iron sulfide immobilized on Algerian halloysite clay (HKDD3) with enhanced removal of methylene blue from aqueous medium-Reference-Cited by-同舟云学术

Synthesis and characterization of iron sulfide immobilized on Algerian halloysite clay (HKDD3) with enhanced removal of methylene blue from aqueous medium

Published:2023-11-07 Issue:1 Volume:56 Page:52-61
ISSN:0142-2421
Container-title:Surface and Interface Analysis
language:en
Short-container-title:Surface & Interface Analysis

Author:

Hayoune Asma¹²^ORCID,Akkari Hocine³,Marelli Marcello⁴,Pappalardo Valeria⁵,Yang Jia⁶,Zubair Muhammad⁷

Affiliation:

1. Groupe des matériaux fonctionnels, laboratoire LGMM, 20 aout 1955 Skikda Algeria

2. Laboratoire de Recherche Sur La Physico‐chimie Des Surfaces Et Interfaces, Faculté Des Sciences Université 20 Août 1955‐Skikda Algérie Algeria

3. Département de Génie Industriel, Faculté de Technologie Université Batna 2 Chahid Mostefa Ben Boulaid Batna Algeria

4. CNR‐SCITEC Istituto di scienze e tecnologie chimiche “Giulio Natta” Milan Italy

5. National Research Council of Italy (CNR) Istituto SCITEC Milan Italy

6. Department of Chemical Engineering Norwegian University of Science and Technology Trondheim Norway

7. Surface Science Group, Photonics Laboratory Tampere University Tampere Finland

Abstract

The aim of this study is to functionalize an Algerian halloysite clay (kaolin Djebel Debbagh, HKDD3) with FeS nanoparticles by employing a hydrothermal approach and exploring its ability to remove methylene blue under visible light irradiation. The FeS‐HKDD3 photocatalyst was synthesized successfully and exhibited good crystallinity. Different techniques were used to characterize the produced photocatalyst, including XRD, STEM/EDS, TEM, BET, and UV–vis DRS in order to investigate its structure, morphology, and optical performance. The HKDD3 is a natural halloysite having a tubular shape with a length ranging from 500 nm to several micrometers and a diameter that is estimated from 50 to 100 nm. The iron sulfide nanoparticles are immobilized as cube aggregates on the surface of the halloysite. The visible range displayed a strong absorption of the obtained photocatalyst, with an estimated bandgap of 1.60 eV, according to UV–vis DRS findings. The results exhibited a higher efficiency toward synergic adsorption‐photocatalytic degradation effect for methylene blue dye removal.

Publisher

Wiley

Subject

Materials Chemistry,Surfaces, Coatings and Films,Surfaces and Interfaces,Condensed Matter Physics,General Chemistry

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