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All issues Volume 410 (2025) MATEC Web Conf., 410 (2025) 02006 References
Open Access
Issue
MATEC Web Conf.
Volume 410, 2025
2025 3rd International Conference on Materials Engineering, New Energy and Chemistry (MENEC 2025)
Article Number 02006
Number of page(s) 9
Section Environmental Protection Strategies for Pollution Control and Climate Resilience
DOI https://doi.org/10.1051/matecconf/202541002006
Published online 24 July 2025
  1. R. Lindsey, L. Dahlman, Climate change: Global temperature. Climate. gov, 16, (2020) [Google Scholar]
  2. B. R. Patra, A. Mukherjee, S. Nanda, A. K. Dalai, Biochar production, activation and adsorptive applications: a review. Envir. Chem. Lett. 19, 2237-2259(2021) [Google Scholar]
  3. R. J. Lowe, P. Drummond, Solar, wind and logistic substitution in global energy supply to 2050–Barriers and implications. Ren. and Sus. Ene. Rev. 153, 111720(2022) [Google Scholar]
  4. S. E. Zanco, J. F. Pérez-Calvo, A. Gasós, B. Cordiano, V. Becattini, M. Mazzotti, Postcombustion CO2 capture: a comparative techno-economic assessment of three technologies using a solvent, an adsorbent, and a membrane. ACS Engin. Au, 1(1), 50-72(2021) [Google Scholar]
  5. H. E. Emam, R. M. Abdelhameed, H. B. Ahmed, Adsorptive performance of MOFs and MOF containing composites for clean energy and safe environment. J. of Envir. Chem. Engin. 8(5), 104386(2020) [Google Scholar]
  6. X. Zhang, Z. Chen, X. Liu, S. L. Hanna, X. Wang, R. Taheri-Ledari, ... O. K. Farha, A historical overview of the activation and porosity of metal–organic frameworks. Chem. Soc. Rev. 49(20), 7406-7427(2020) [Google Scholar]
  7. G. Singh, R. Bahadur, J. M. Lee, I. Y. Kim, A. M. Ruban, J. M. Davidraj, ... A. Vinu, Nanoporous activated biocarbons with high surface areas from alligator weed and their excellent performance for CO2 capture at both low and high pressures. Chem. Engin. J. 406, 126787 (2021) [Google Scholar]
  8. N. F. Attia, M. Jung, J. Park, H. Jang, K. Lee, H. Oh, Flexible nanoporous activated carbon cloth for achieving high H2, CH4, and CO2 storage capacities and selective CO2/CH4 separation. Chem. Engin. J. 379, 122367 (2020) [Google Scholar]
  9. L.J. Zhang, Y. Zhang, X.X. Li, Research progress on carbon dioxide capture technology. Sino-Global Energy, (12), 73-81(2023) [Google Scholar]
  10. B. Doczekalska, M. Bartkowiak, H. Łopatka, M. Zborowska, Activated carbon prepared from corn biomass by chemical activation with potassium hydroxide. BioResources, 17(1), 1794(2022) [Google Scholar]
  11. A. Mukherjee, J. A. Okolie, A. Abdelrasoul, C. Niu, A. K. Dalai, Review of post- combustion carbon dioxide capture technologies using activated carbon. J. of Envir. Sci. 83, 46-63(2019) [Google Scholar]
  12. J. Serafin, B. Dziejarski, Activated carbons—Preparation, characterization and their application in CO2 capture: A review. Envir. Sci. and Pollu. Res. 31(28), 40008-40062(2024) [Google Scholar]
  13. Y. Huang, Q. Yu, M.S. Li, J. Fan, L.Zhao, Z. Yao, Surface modification of activated carbon fiber by low-temperature oxygen plasma: Textural property, surface chemistry, and the effect of water vapor adsorption. Chem. Engin. J. 418, 129474(2021) [Google Scholar]
  14. A. Vilén, P. Laurell, R. Vahala, Comparative life cycle assessment of activated carbon production from various raw materials. Journal of Environmental Management, Metal- organic skeleton composites for carbon dioxide capture and separation (Master’s thesis, Beijing University of Chemical Technology). 324, 116356(2023) [Google Scholar]
  15. Z. Heidarinejad, M. H. Dehghani, M. Heidari, G. Javedan, I. Ali, M. Sillanpää, Methods for preparation and activation of activated carbon: a review. Envir. Chem. Lett. 18, 393-415(2020) [Google Scholar]
  16. E. Gagliano, P. P. Falciglia, Y. Zaker, N. C. Birben, T. Karanfil, P. Roccaro, State of the research on regeneration and reactivation techniques for per-and polyfluoroalkyl substances (PFAS)-laden granular activated carbons (GACs). Cur. Opi. in Chem. Engin. 42, 100955(2023) [Google Scholar]
  17. D. H. Nguyen, J. H. Kim, T. T. N. Vo, N. Kim, H. S. Ahn, Design of portable hydrogen tank using adsorption material as storage media: An alternative to Type IV compressed tank. Appli. Ene. 310, 118552(2022) [Google Scholar]
  18. Z. W. Zhu, Q. R. Zheng, Investigation of cryo-adsorption hydrogen storage capacity of rapidly synthesized MOF-5 by mechanochemical method. Inter. J. of Hydr. Ene. 48(13), 5166-5174 (2023) [Google Scholar]
  19. V. N. Le, D. Kim, J. Kim, M. R. Othman, Freeze granulation of nanoporous UiO-66 nanoparticles for capture of volatile organic compounds. ACS Appli. Nano Mater. 4(9), 8863-8871(2021) [Google Scholar]
  20. S. A. Khan, Metal-Organic Frameworks (Mofs): Synthesis, Characterization, And Potential Applications (Master’s Thesis, Middle East Technical University). (2022) [Google Scholar]
  21. S. Y. Fang, J. L. Gong, L. Tang, W. C. Cao, J. Li, Z. K. Tan, ...Z. P. Chen, Construction the hierarchical architecture of molybdenum disulfide/MOF composite membrane via electrostatic self-assembly strategy for efficient molecular separation. Chem. Engin. J. 449, 137808(2022) [Google Scholar]

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