Improving CMTS Physical Properties Through Potassium Doping for Enhanced Rhodamine B Degradation

Amira Bouali; Olfa Kamoun; Moez Hajji; Ileana Nicoleta Popescu; Ruxandra Vidu; Najoua Turki Kamoun

doi:10.3390/technologies13070301

Technologies (Jul 2025)

Improving CMTS Physical Properties Through Potassium Doping for Enhanced Rhodamine B Degradation

Amira Bouali,
Olfa Kamoun,
Moez Hajji,
Ileana Nicoleta Popescu,
Ruxandra Vidu,
Najoua Turki Kamoun

Affiliations

Amira Bouali: LR99ES13 Laboratory of Condensed Matter Physics (LPMC), Faculty of Sciences of Tunis, Department of Physics, Tunis El Manar University, Tunis 2092, Tunisia
Olfa Kamoun: LR99ES13 Laboratory of Condensed Matter Physics (LPMC), Faculty of Sciences of Tunis, Department of Physics, Tunis El Manar University, Tunis 2092, Tunisia
Moez Hajji: LR99ES13 Laboratory of Condensed Matter Physics (LPMC), Faculty of Sciences of Tunis, Department of Physics, Tunis El Manar University, Tunis 2092, Tunisia
Ileana Nicoleta Popescu: Faculty of Materials Engineering and Mechanics, Valahia University of Targoviste, 130004 Targoviste, Romania
Ruxandra Vidu: American Romanian Academy of Arts and Sciences, Citrus Heights, CA 95616, USA
Najoua Turki Kamoun: LR99ES13 Laboratory of Condensed Matter Physics (LPMC), Faculty of Sciences of Tunis, Department of Physics, Tunis El Manar University, Tunis 2092, Tunisia

DOI: https://doi.org/10.3390/technologies13070301
Journal volume & issue: Vol. 13, no. 7
p. 301

Abstract

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This study investigated the enhancement of Cu2MnSnS4 (CMTS) thin films’ photocatalytic properties through potassium (K) doping for rhodamine B degradation under visible light. K-doped CMTS films synthesized using spray pyrolysis technology achieved a 98% degradation efficiency within 120 min. The physical property improvements were quantitatively validated through X-ray diffraction (XRD) analysis, which confirmed enhanced crystallinity. Scanning electron microscopy (SEM) revealed significant modifications in surface morphology as a function of potassium content, highlighting its influence on film growth dynamics. Optical characterization demonstrated a pronounced reduction in transmittance, approaching negligible values at 7.5% potassium doping, and a narrowed optical band gap of 1.41 eV, suggesting superior light absorption capabilities. Photocatalytic performance was significantly enhanced, achieving a Rhodamine B degradation efficiency of up to 98% at 7.5% doping. These enhancements collectively improved the material’s light-harvesting capabilities and charge separation efficiency, positioning K-doped CMTS as a highly effective photocatalyst compared to other ternary and quaternary materials.

Published in Technologies

ISSN: 2227-7080 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology
Website: http://www.mdpi.com/journal/technologies

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