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Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption: A state-of-the-art interpretative review

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Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption: A state-of-the-art interpretative review. / Azni Farhana Mazri, N.; Arifutzzaman, A.; Kheireddine Aroua, M. et al.
In: Alexandria Engineering Journal, Vol. 77, 15.08.2023, p. 479-502.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Azni Farhana Mazri, N, Arifutzzaman, A, Kheireddine Aroua, M, Ekhlasur Rahman, M & Ali Mazari, S 2023, 'Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption: A state-of-the-art interpretative review', Alexandria Engineering Journal, vol. 77, pp. 479-502. https://doi.org/10.1016/j.aej.2023.06.070

APA

Azni Farhana Mazri, N., Arifutzzaman, A., Kheireddine Aroua, M., Ekhlasur Rahman, M., & Ali Mazari, S. (2023). Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption: A state-of-the-art interpretative review. Alexandria Engineering Journal, 77, 479-502. https://doi.org/10.1016/j.aej.2023.06.070

Vancouver

Azni Farhana Mazri N, Arifutzzaman A, Kheireddine Aroua M, Ekhlasur Rahman M, Ali Mazari S. Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption: A state-of-the-art interpretative review. Alexandria Engineering Journal. 2023 Aug 15;77:479-502. Epub 2023 Jul 13. doi: 10.1016/j.aej.2023.06.070

Author

Azni Farhana Mazri, N. ; Arifutzzaman, A. ; Kheireddine Aroua, M. et al. / Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption : A state-of-the-art interpretative review. In: Alexandria Engineering Journal. 2023 ; Vol. 77. pp. 479-502.

Bibtex

@article{b9beaf56aa0a43f39f0f55f5d0d073a9,
title = "Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption: A state-of-the-art interpretative review",
abstract = "Carbon Dioxide (CO2) Capture, Utilization and Storage (CCUS) has been introduced as the solution for increasing CO2, affecting many stakeholders. The improvement of the performance of the most mature technology among the CCUS technologies: Absorption, has been the main interest through various approaches, such as nanosuspension and ionic liquids (ILs), resulting in the emergence of nanotechnology and its unique advantages in various fields. This review aims to introduce the application of emerging 2D structured graphene-based materials in CO2 absorption. This review addresses the past five years{\textquoteright} application of graphene-based nanomaterials, covering the forms, characterization, and synthesis methods and means of administration (such as capsulated and nanofluids). Graphene-based materials' influence on CO2 absorption is summarized with graphical presentations and discussed. The results indicated that graphene-based materials are suitable for application in CO2 absorption either as suspension or support, which boosts absorption performances. Finally, challenges and future works are summarized.",
author = "{Azni Farhana Mazri}, N. and A. Arifutzzaman and {Kheireddine Aroua}, M. and {Ekhlasur Rahman}, M. and {Ali Mazari}, S.",
year = "2023",
month = aug,
day = "15",
doi = "10.1016/j.aej.2023.06.070",
language = "English",
volume = "77",
pages = "479--502",
journal = "Alexandria Engineering Journal",
issn = "1110-0168",
publisher = "Alexandria University",

}

RIS

TY - JOUR

T1 - Graphene and its tailoring as emerging 2D nanomaterials in efficient CO2 absorption

T2 - A state-of-the-art interpretative review

AU - Azni Farhana Mazri, N.

AU - Arifutzzaman, A.

AU - Kheireddine Aroua, M.

AU - Ekhlasur Rahman, M.

AU - Ali Mazari, S.

PY - 2023/8/15

Y1 - 2023/8/15

N2 - Carbon Dioxide (CO2) Capture, Utilization and Storage (CCUS) has been introduced as the solution for increasing CO2, affecting many stakeholders. The improvement of the performance of the most mature technology among the CCUS technologies: Absorption, has been the main interest through various approaches, such as nanosuspension and ionic liquids (ILs), resulting in the emergence of nanotechnology and its unique advantages in various fields. This review aims to introduce the application of emerging 2D structured graphene-based materials in CO2 absorption. This review addresses the past five years’ application of graphene-based nanomaterials, covering the forms, characterization, and synthesis methods and means of administration (such as capsulated and nanofluids). Graphene-based materials' influence on CO2 absorption is summarized with graphical presentations and discussed. The results indicated that graphene-based materials are suitable for application in CO2 absorption either as suspension or support, which boosts absorption performances. Finally, challenges and future works are summarized.

AB - Carbon Dioxide (CO2) Capture, Utilization and Storage (CCUS) has been introduced as the solution for increasing CO2, affecting many stakeholders. The improvement of the performance of the most mature technology among the CCUS technologies: Absorption, has been the main interest through various approaches, such as nanosuspension and ionic liquids (ILs), resulting in the emergence of nanotechnology and its unique advantages in various fields. This review aims to introduce the application of emerging 2D structured graphene-based materials in CO2 absorption. This review addresses the past five years’ application of graphene-based nanomaterials, covering the forms, characterization, and synthesis methods and means of administration (such as capsulated and nanofluids). Graphene-based materials' influence on CO2 absorption is summarized with graphical presentations and discussed. The results indicated that graphene-based materials are suitable for application in CO2 absorption either as suspension or support, which boosts absorption performances. Finally, challenges and future works are summarized.

U2 - 10.1016/j.aej.2023.06.070

DO - 10.1016/j.aej.2023.06.070

M3 - Journal article

VL - 77

SP - 479

EP - 502

JO - Alexandria Engineering Journal

JF - Alexandria Engineering Journal

SN - 1110-0168

ER -