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All issues Volume 664 (2025) E3S Web Conf., 664 (2025) 07004 References
Open Access
Issue
E3S Web Conf.
Volume 664, 2025
4th International Seminar of Science and Applied Technology: “Green Technology and AI-Driven Innovations in Sustainability Development and Environmental Conservation” (ISSAT 2025)
Article Number 07004
Number of page(s) 7
Section Renewable Energy
DOI https://doi.org/10.1051/e3sconf/202566407004
Published online 20 November 2025
  1. J. Płotka-Wasylka, P. Makoś-Chełstowska, A. Kurowska-Susdorf, M.J.S. Treviño, S.Z. Guzmán, H. Mostafa, M. Cordella. End-of-life management of single-use baby diapers: Analysis of technical, health and environment aspects. Sci. Total. Environ. 2836, 155581 (2022) [Google Scholar]
  2. S. Nangan, D. Verma, W. Sukmas, L. Gnanasekaran, M. Okhawilai, H. Uyama. Lignocellulosic materials extraction from waste baby diaper to prepare light-responsive metal oxide/carbon composite for efficient organic dye pollutant removal. Int. J. Biol. Macromol., 280, 135526 (2024) [Google Scholar]
  3. H.L. White, T. Mwapasa, M. Mphasa, P.K. Kalonde, N. Feasey, D.M. Oliver, M.J. Ormsby, T. Morse, K. Chidziwisano, a R.S. Quilliam. Open defaecation by proxy: Tackling the increase of disposable diapers in waste piles in informal settlements. Int. J. Hyg. Environ. Health, 250, 114171 (2023) [Google Scholar]
  4. A.L.I Abd Hassan, I.K. Shakir. Synthesis of nanocellulose using ultrasound-assisted acid hydrolysis for adsorption/oxidation of organic pollutants in wastewater under UV and solar light. J. Sustain. Sci. Manag, 19, 120 (2024) [Google Scholar]
  5. P.K. Poddar, A. Gupta, S.S Jamari, N.S. Kim, T.A. Khan, S. Sharma, M.A. Abd Aziz. Synthesis of nanocellulose from rubberwood fibers via ultrasonication combined with enzymatic and chemical pretreatments. Asian J. Appl. Sci., 3, 520 (2015) [Google Scholar]
  6. P. Thomas, T. Duolikun, N.P. Rumjit, S. Moosavi, C.W. Lai, M.R.B Johan, L.B Fen. Comprehensive review on nanocellulose: Recent developments, challenges and future prospects. J. Mech. Behav. Biomed. Mater, 110, 103884 (2020). [Google Scholar]
  7. C. Trilokesh, P. Bavadharani, M. Mahapriyadarshini, R. Janani, K.B Uppuluri. Recycling baby diaper waste into cellulose and nanocellulose. Waste & Biomass Valorization. 12, 4299 (2021) [Google Scholar]
  8. J.K Lim, J. Müller, F.N. Mahdi, S.K. Chen, K.B Tan, O.J. Lee. New open-loop recycling approaches for disposable diaper waste. Environ. Rev. 30, 268 (2022) [Google Scholar]
  9. S. Yu, J. Sun, Y. Shi, Q. Wang, J. Wu, J. Liu. Nanocellulose from various biomass wastes: Its preparation and potential usages towards the high value-added products. Environ Sci Ecotechnol. 5, 100077 (2021) [Google Scholar]
  10. Y. Budyk, A. Fullana. Hydrothermal carbonization of disposable diapers. J Environ Chem Eng. 7, 103341 (2019) [Google Scholar]
  11. B. Mazela, W. Perdoch, B. Peplińska, M. Zieliński. Influence of chemical pretreatments and ultrasonication on the dimensions and appearance of cellulose fibers. Materials (Basel). 13, 5274 (2020) [Google Scholar]
  12. A. Hisbiyah, L. Nurfadlilah. Simultaneous effect of ultrasonic and chemical treatment on the extraction of nanocellulose from sugarcane bagasse. J Kim Sains Apl. 24, 146 (2021) [Google Scholar]
  13. Z.Z. Chowdhury, S.B.A Hamid. Preparation and characterization of nanocrystalline cellulose using ultrasonication combined with a microwave-assisted pretreatment process. BioResources. 11, 3397 (2016) [Google Scholar]
  14. D.F. Hou, P.P Yuan, Z.W. Feng, M. An, P.Y. Li, C. Liu, M.B. Yang. Sustainable conversion regenerated cellulose into cellulose oleate by sonochemistry. Front. Chem. Sci. Eng., 17, 1096 (2023) [Google Scholar]
  15. K. Qanitah, N.E. Suyatma, S. Saraswati, S. Yuliani. Synthesis of nanocellulose derived from oil palm empty fruit bunch cellulose via the ultrasound method. In BIO Web of Conferences. EDP Sciences. 169, 01006. (2025) [Google Scholar]
  16. Li, F., Xie, Z., Wen, J., Tang, T., Jiang, L., Hu, G. and Li, M. Synthesis of cellulose– poly (acrylic acid) using sugarcane bagasse extracted cellulose fibres for the removal of heavy metal ions. Int. J. Mol. Sci., 24, 8922 (2023) [Google Scholar]
  17. A.H.A. Fauziyyah, S. Krisdayanti, L.A.C. Suwandi, M.Z. Irsyada, M.N. Faizin, N. Hastuti, W.D.P. Rengga, 2024. Synthesis and characterization of cellulose acetate from oil palm empty fruit bunches (OPEFB) as membrane material. In E3S Web of Conferences EDP Sciences. 576, 06010 (2024). [Google Scholar]
  18. C.D. Midhun Dominic, S. Maheswary, K.V. Neenu, S. Sajadi, D. dos Santos Rosa, P.M Sabura Begum, M. Mathew, T.G Ajithkumar, J. Parameswaranpillai, T.S. George, V.C. Resmi. Colocasia esculenta stems for the isolation of cellulose nanofibers: A chlorine- free method for the biomass conversion. Biomass Convers Biorefin. 14, 10305 (2024) [Google Scholar]
  19. E. Hafemann, R. Battisti, D. Bresolin, C. Marangoni, R.A.F. Machado, 2020. Enhancing chlorine-free purification routes of rice husk biomass waste to obtain cellulose nanocrystals. Waste & Biomass Valorization, 11, 6595 (2020) [Google Scholar]
  20. R.S. Abolore, S. Jaiswal, A.K. Jaiswal. 2024. Green and sustainable pretreatment methods for cellulose extraction from lignocellulosic biomass and its applications: A review. Carbohydr. Polym. Tech. & App., 7, 100396 (2024) [Google Scholar]
  21. M.K.A Abdul Razab, R.S. Mohd Ghani, F.A. Mohd Zin, N.A.A Nik Yusoff, A.A. Mohamed Noor. Isolation and characterization of cellulose nanofibrils from banana pseudostem, oil palm trunk, and kenaf bast fibers using chemicals and high-intensity ultrasonication. J. Nat.Fibers. 19, 5537-5550 (2022) [Google Scholar]
  22. P.X. Sotelo-Navarro, H.M. Poggi-Varaldo, S.J. Turpin-Marion, A. Vázquez-Morillas, M Beltrán-Villavicencio, R.M. Espinosa-Valdemar. Biohydrogen production from used diapers: evaluation of effect of temperature and substrate conditioning. Waste Manag. Res., 35, 267 (2017) [Google Scholar]
  23. Singh, S. Suranjoy, A. Loong-Tak Lim. Manickavasagan. Imaging and spectroscopic techniques for microstructural and compositional analysis of lignocellulosic materials: a review. Biomass Convers Biorefin 13, 499 (2023). [Google Scholar]
  24. C. Trilokesh, K.B. Uppuluri. Isolation and characterization of cellulose nanocrystals from jackfruit peel. Sci. Rep. 9, 16709. (2019) [Google Scholar]
  25. L.N. Rao, M. Lakavat, S. Gandi, G.K. Extraction and characterization of cellulose from agricultural waste materials. Mater. Today Proc, 80, 2740 (2023) [Google Scholar]
  26. A. Ahmad, M.N. Khan, N. Rehman, S. Kelestemur, M. Tariq, A.K. Jan, S. Ahmad, D.M. Eisele, W. Syed and M.B.A. Al-Rawi 2025. Extraction and Characterization of Cellulose and Cellulose Nanocrystals from the Stalks of Marrubium vulgare plant. Carbohydr. Polym. Tech. Appl., 100947 (2025) [Google Scholar]
  27. E.G. Bacha. Response surface methodology modeling, experimental validation, and optimization of acid hydrolysis process parameters for nanocellulose extraction. S. Afr. J. Chem. Eng. 40, 176 (2022) [Google Scholar]
  28. E. Wiercigroch, E. Szafraniec, K., Czamara, M.Z. Pacia, K. Majzner, K. Kochan, A. Kaczor, M. Baranska and Malek, K., 2017. Raman and infrared spectroscopy of carbohydrates: A review. Spectrochim Acta A Mol Biomol Spectrosc. 185, 317 (2017) [Google Scholar]
  29. Boukir, A., Hajji, L. and Zghari, B. Effect of moist and dry heat weathering conditions on cellulose degradation of historical manuscripts exposed to accelerated ageing: 13C NMR and FTIR spectroscopy as a non-invasive monitoring approach. J. Mater. Environ. Sci. 9, 641 (2018) [Google Scholar]
  30. W. Li, X. Tan, C. Miao, Z. Zhang, Y. Wang, A.J. Ragauskas, X. Zhuang. Mild organosolv pretreatment of sugarcane bagasse with acetone/phenoxyethanol/water for enhanced sugar production. Green Chemistry, 25, 1169 (2023) [Google Scholar]
  31. M.R. Ali, U.H. Abdullah, P. Gerardin, Z. Ashaari, N.H. Hamid, S.H. Kamarudin. Chemical, crystallinity and morphological changes of rubberwood (Hevea brasiliensis (Willd. ex A. Juss.) Müll. Arg.) hydrothermally treated in different buffered media. Forests. 14, 203 (2023) [Google Scholar]
  32. B. Lovely, H.A. Fauziyyah, S. Krisdayanti, M.Z. Irsyada, L. Efiyanti, W.D.P. Rengga, N. Hastuti, R.A. Ilyas, M.N.F. Norrrahim, V.F Knight. 2025. Oil palm residue-based cellulose acetate membranes enhanced with zinc oxide and n-methyl pyrrolidinone for batik wastewater treatment. Bioresour. bioprocess. 12, 64 (2025) [Google Scholar]

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