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Zeolite: From a Boiling Stone to the Applicable Minerals in Various Industrial Processes: 2nd Edition

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Dear Colleagues,

Zeolites are well known aluminosilicate minerals with a distinct crystal structure and unique physical as well as chemical characteristics. They have a thermally stable three-dimensional crystal lattice that permits different chemical species to be accommodated within the cavities and channels of the aluminosilicate lattice and on its surface, including atoms, ions, and nanoparticles of different compounds. Before scientific research revealed that zeolites are, in many respects, unique minerals that can be relatively easily transformed into materials with a wide range of uses, zeolite was just an odd stone that released vapor when heated.

Zeolites are becoming increasingly popular as environmentally friendly substitutes for a wide range of chemicals and reagents, such as corrosive acids, polymeric adsorbents, catalysts, nanoparticle supports, and medications. Researchers studying zeolites as minerals or their applications in a range of domains (adsorption, agriculture, pharmacy, environmental protection, and catalysis) can publish their most recent findings in this Special Issue and, by promoting their research, also raise awareness of this unusual and beneficial mineral.

We are honored to invite you to collaborate on this project and share your most recent research findings with the scientific community in addition to the broader public.

Prof. Dr. Nevenka Rajić
Dr. Jelena Pavlović
Guest Editors

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Research

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14 pages, 2988 KiB

Open AccessArticle

Adsorption of the Herbicide Endosulfan by Newly Discovered Zeolitic Tuffs in Mexico

by Juana Deisy Santamaria-Juarez, Miguel Ángel Hernández, Gabriela Itzel Hernández, Karin Monserrat Álvarez, Efraín Rubio, Roberto Portillo, María de los Ángeles Velasco, Josue Fernando Aquino and Vitalii Petranovskii

Minerals 2024, 14(7), 643; https://doi.org/10.3390/min14070643 - 24 Jun 2024

Viewed by 529

Abstract

The study presents experimental results on the adsorption of endosulfan in new natural zeolite deposits from Mexico. The adsorption of this herbicide was evaluated using inverse gas chromatography with a thermal conductivity detector and helium as the carrier gas. The experimental adsorption data were analyzed using the Langmuir and Freundlich equations in their linear form over a temperature range of 413–573 K. The study also estimated thermodynamic parameters such as the Free Energy of Gibbs (ΔG), isosteric enthalpy of adsorption (ΔH), and entropy change (ΔS) within this temperature range. The results indicated that the zeolites studied had a low adsorption capacity for this herbicide under the experimental conditions. The study also quantitatively determined the presence of starting minerals, with Na-Mordenite and Na-Clinoptilolite being the most prevalent, followed by Ca-Chabazite, Ca-Clinoptilolite, and Montmorillonite, with Quartz being present in low amounts. The NMOR zeolite underwent ion exchanges with AgNO₃ to produce the Ag-MOR zeolite and assess its herbicide adsorption capacity. Another mineral, Ca-Stilbite, was present in higher quantities than Ca-Clinoptilolite and Quartz. Full article

(This article belongs to the Special Issue Zeolite: From a Boiling Stone to the Applicable Minerals in Various Industrial Processes: 2nd Edition)

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Review

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19 pages, 2658 KiB

Open AccessReview

Use of Natural Zeolite Clinoptilolite in the Preparation of Photocatalysts and Its Role in Photocatalytic Activity

by Jelena Pavlović and Nevenka Rajić

Minerals 2024, 14(5), 508; https://doi.org/10.3390/min14050508 - 13 May 2024

Viewed by 798

Abstract

The use of natural zeolite clinoptilolite in preparing photocatalysts and its function in photocatalysis are discussed in this review. The importance of advanced oxidation processes (AOPs) and the potential of heterogeneous photocatalysis in removing environmental pollutants are emphasized. The review focuses on the synergistic effects of clinoptilolite with semiconductors (TiO₂, ZnO, CuO, SnO₂, and NiO) to prepare stable and active photocatalysts, highlighting recent advancements in this field. It explores clinoptilolite’s structural characteristics, highlighting its microporous nature, adaptable framework, and improved textural properties due to acid and alkali treatments. Particle size, crystal phase, and calcination temperature are three key synthesis parameters that affect photocatalytic activity and are highlighted in the discussion of these parameters and their methods. A discussion is held regarding the processes and mechanisms of photocatalytic degradation of different organic compounds under varying irradiation conditions, including UV, visible, and ambient sunlight. Clinoptilolite is vital in improving supported semiconductor oxides’ photocatalytic efficiencies, which aid in pollutant degradation and environmental remediation. Full article

(This article belongs to the Special Issue Zeolite: From a Boiling Stone to the Applicable Minerals in Various Industrial Processes: 2nd Edition)

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