Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications

Researchers have switched their focus on advancing the exploitation of the cost-effective pore-forming agent (PFA) fabrication method due to the capital-intensive nature of the cutting-edge technologies for the manufacture of macroporous ceramics with tailored porosity. The introduction of synthetic...

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Published in:MATERIALS TODAY SUSTAINABILITY
Main Authors: Dele-Afolabi, T. T.; Hanim, M. A. Azmah; Oyekanmi, A. A.; Ansari, M. N. M.; Sikiru, Surajudeen; Ojo-Kupoluyi, O. J.
Format: Article
Language:English
Published: ELSEVIER 2024
Subjects:
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001362093100001
author Dele-Afolabi
T. T.; Hanim
M. A. Azmah; Oyekanmi
A. A.; Ansari
M. N. M.; Sikiru
Surajudeen; Ojo-Kupoluyi, O. J.
spellingShingle Dele-Afolabi
T. T.; Hanim
M. A. Azmah; Oyekanmi
A. A.; Ansari
M. N. M.; Sikiru
Surajudeen; Ojo-Kupoluyi, O. J.
Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
Science & Technology - Other Topics; Materials Science
author_facet Dele-Afolabi
T. T.; Hanim
M. A. Azmah; Oyekanmi
A. A.; Ansari
M. N. M.; Sikiru
Surajudeen; Ojo-Kupoluyi, O. J.
author_sort Dele-Afolabi
spelling Dele-Afolabi, T. T.; Hanim, M. A. Azmah; Oyekanmi, A. A.; Ansari, M. N. M.; Sikiru, Surajudeen; Ojo-Kupoluyi, O. J.
Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
MATERIALS TODAY SUSTAINABILITY
English
Article
Researchers have switched their focus on advancing the exploitation of the cost-effective pore-forming agent (PFA) fabrication method due to the capital-intensive nature of the cutting-edge technologies for the manufacture of macroporous ceramics with tailored porosity. The introduction of synthetic pore formers, however, has raised serious concerns since it poses the risk of increasing the cost, complexity, and turnaround time of this fabrication process. In light of these problems, developing porous ceramics using organic wastes as pore formers is emerging as a popular substitute method for incorporating pores into ceramic matrices. This review discusses the overall performance and critical assessment of macroporous ceramic systems developed using PFAs derived from organic wastes from starch and agricultural wastes. In relation to the requirements and criteria for manufacturing processes, the tremendous potential of these intriguing porous ceramics for energy- and environment-based applications, such as insulation, filtration, energy storage and conversion media, and energy harvesting systems are highlighted. This paper is expected to serve as a guide for producing advanced macroporous ceramics developed from organic waste that have the appropriate pore architectures and properties needed for a range of applications. Finally, this review demonstrates how the development of present and upcoming energy and environmental technologies may benefit from the use of these porous ceramics.
ELSEVIER
2589-2347

2024
27

10.1016/j.mtsust.2024.100824
Science & Technology - Other Topics; Materials Science

WOS:001362093100001
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001362093100001
title Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
title_short Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
title_full Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
title_fullStr Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
title_full_unstemmed Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
title_sort Organic waste-derived pore formers for macroporous ceramics fabrication: A review on synthesis, durability properties and potential applications
container_title MATERIALS TODAY SUSTAINABILITY
language English
format Article
description Researchers have switched their focus on advancing the exploitation of the cost-effective pore-forming agent (PFA) fabrication method due to the capital-intensive nature of the cutting-edge technologies for the manufacture of macroporous ceramics with tailored porosity. The introduction of synthetic pore formers, however, has raised serious concerns since it poses the risk of increasing the cost, complexity, and turnaround time of this fabrication process. In light of these problems, developing porous ceramics using organic wastes as pore formers is emerging as a popular substitute method for incorporating pores into ceramic matrices. This review discusses the overall performance and critical assessment of macroporous ceramic systems developed using PFAs derived from organic wastes from starch and agricultural wastes. In relation to the requirements and criteria for manufacturing processes, the tremendous potential of these intriguing porous ceramics for energy- and environment-based applications, such as insulation, filtration, energy storage and conversion media, and energy harvesting systems are highlighted. This paper is expected to serve as a guide for producing advanced macroporous ceramics developed from organic waste that have the appropriate pore architectures and properties needed for a range of applications. Finally, this review demonstrates how the development of present and upcoming energy and environmental technologies may benefit from the use of these porous ceramics.
publisher ELSEVIER
issn 2589-2347

publishDate 2024
container_volume 27
container_issue
doi_str_mv 10.1016/j.mtsust.2024.100824
topic Science & Technology - Other Topics; Materials Science
topic_facet Science & Technology - Other Topics; Materials Science
accesstype
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url https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001362093100001
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