Diatomaceous Earth: Characterization, thermal modification, and application-Reference-Cited by-同舟云学术

Diatomaceous Earth: Characterization, thermal modification, and application

Published:2021-01-01 Issue:1 Volume:19 Page:451-461
ISSN:2391-5420
Container-title:Open Chemistry
language:en
Short-container-title:

Author:

Reka Arianit A.¹²,Pavlovski Blagoj³,Fazlija Emira¹,Berisha Avni²⁴,Pacarizi Musaj²⁴,Daghmehchi Maria⁵,Sacalis Carmen⁶,Jovanovski Gligor⁷,Makreski Petre⁸,Oral Ayhan⁹

Affiliation:

1. Department of Chemistry, Faculty of Natural Sciences and Mathematics, University of Tetovo , Bldv. Ilinden n.n. , 1200 Tetovo , Republic of North Macedonia

2. NanoAlb, Albanian Unit of Nanoscience and Nanotechnology, Academy of Sciences of Albania , Fan Noli square , 1000 Tirana , Albania

3. Institute of Inorganic Technology, Faculty of Technology and Metallurgy, Ss. Cyril and Methodius University , Ruger Boskovic n.n. , 1000 Skopje , Republic of North Macedonia

4. Department of Chemistry, Faculty of Natural Sciences and Mathematics, University of Pristina “Hasan Prishtina” , 10000 Pristina , Republic of Kosovo

5. Department of Archaeology, University of Tehran , Tehran 6619-14155 , Iran

6. Department of Chemistry, Faculty of Chemistry and Chemical Engineering, Babes-Bolyai University , 11 Arany Janos St. , 400028 Cluj-Napoca , Romania

7. Research Center for Environment and Materials, Academy of Sciences and Arts of North Macedonia, MASA , Bul. Krste Misirkov 2 , 1000 Skopje , North Macedonia

8. Institute of Chemistry, Faculty of Natural Sciences and Mathematics, Ss. Cyril and Methodius University , Arhimedova 5 , 1000 Skopje , Republic of North Macedonia

9. Department of Materials Science and Engineering, Çanakkale Onsekiz Mart University , Campus of Terzioglu , 17100 Çanakkale , Turkey

Abstract

Abstract The diatomaceous earth (DE), collected from the Mariovo region in North Macedonia, was characterized and thermally modified. The material represents a sedimentary rock of biogenic origin, soft solid that can be easily disintegrated, with white to grayish color, with bulk density of 0.51–0.55 g/cm3, total porosity of 61–63%, and specific gravity of 2.25 g/cm3. The chemical composition is as follows: SiO2, 86.03; Al2O3, 3.01; Fe2O3, 2.89; MnO, 0.06; TiO2, 0.20; CaO, 0.76; MgO, 0.28; K2O, 0.69; Na2O, 0.19; P2O5, 0.15; and loss of ignition, 5.66 (wt%). The mineralogy of the raw DE is characterized by the predominant presence of amorphous phase, followed by crystalline quartz, muscovite, kaolinite, and feldspar. Significant changes in the opal phase are observed in the 1,000–1,200°C temperature region. At 1,100°C, the entire opal underwent solid–solid transition to cristobalite. Further ramp of the temperature (1,100–1,200°C) induced formation of mullite. Scanning electron microscopy (SEM) and transmission electron microscopy depict the presence of micro- and nanostructures with pores varying from 260 to 650 nm. SEM analysis further determined morphological changes in terms of the pore diameters shrinkage to 120–250 nm in comparison to the larger pores found in the initial material. The results from this investigation improve the understanding of mechanism of silica phase transition and the relevant phase alterations that took place in DE upon calcination temperatures from 500 to 1,200°C.

Publisher

Walter de Gruyter GmbH

Subject

Materials Chemistry,General Chemistry

Link

https://www.degruyter.com/document/doi/10.1515/chem-2020-0049/pdf

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