Amine-functionalized biochar/cellulose acetate hybrid membranes for sustainable municipal wastewater treatment

Yazan Abuhasheesh; Mahendra Kumar; Farah Abuhatab; Pau Loke Show; Fawzi Banat; Shadi W. Hasan

doi:10.1007/s42773-026-00582-3

Biochar ›› 2026, Vol. 8 ›› Issue (1) :68 DOI: 10.1007/s42773-026-00582-3

Original Research

research-article

Amine-functionalized biochar/cellulose acetate hybrid membranes for sustainable municipal wastewater treatment

Author information +

History +

PDF

Abstract

The valorization of agricultural waste into functional materials offers a sustainable route for developing advanced water treatment technologies. In this study, microalgae biomass was converted into biochar and subsequently functionalized with amine groups via a one-step mussel-inspired polymerization and Schiff-base addition reaction. The resulting novel amine-functionalized biochar (AFBC) was incorporated into cellulose acetate (CA) membranes using the nonsolvent-induced phase separation (NIPS) method to fabricate hybrid ultrafiltration membranes. Comprehensive structural and physicochemical analyses confirmed the successful functionalization of the biochar and its uniform distribution within the CA matrix. AFBC incorporation significantly enhanced the membrane's hydrophilicity, porosity, and surface charge, leading to improved rejection of natural organic matter (NOM). The membrane containing 4 wt.% AFBC achieved a flux of 169.1 LMH and 64.1% NOM removal efficacy during municipal wastewater filtration, outperforming the pristine CA membrane (81.8 LMH, 31.1% removal). Moreover, the modified membrane demonstrated complete bacterial removal, partial elimination of other contaminants, and a high flux recovery ratio (82.7%), indicating excellent antifouling properties. These findings establish AFBC as a promising sustainable filler for the development of high-performance hybrid membranes for eco-friendly municipal wastewater treatment.

Graphical Abstract

Keywords

Microalgae-derived biochar / Natural organic matter removal / Wastewater treatment / Mixed matrix membranes (MMMs) / Waste valorization

Cite this article

Download citation ▾

Yazan Abuhasheesh, Mahendra Kumar, Farah Abuhatab, Pau Loke Show, Fawzi Banat, Shadi W. Hasan. Amine-functionalized biochar/cellulose acetate hybrid membranes for sustainable municipal wastewater treatment. Biochar, 2026, 8(1): 68 DOI:10.1007/s42773-026-00582-3

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Aboukhater A, Kumar M, Alsafar H, Hasan SW. Oxidative stable functionalized Ti3C2Tx MXene infused novel hybrid membranes for antibiotics laden hospital wastewater treatment. Chem Eng J. 2025, 520. 165738

[2]	Abuhasheesh Y, Ghazal A, Tang DYY, Banat F, Hasan SW, Show PL. Advances in Chlorella microalgae for sustainable wastewater treatment and bioproduction. Chem Eng J Adv. 2025, 22. 100715

[3]	Abuhasheesh Y, Ghazal A, Tang DYY, Banat F, Hasan SW, Show PL. Green strategies for enhanced microalgae processes: leveraging bio-derived adsorbents, green solvents, and synthetic biology. J Environ Chem Eng. 2025, 13. 115986

[4]	Abuhasheesh YH, Hegab HM, Wadi VS, Al Marzooqi F, Banat F, Aljundi IH, Hasan SW. Phase inverted hydrophobic polyethersulfone/iron oxide-oleylamine ultrafiltration membranes for efficient water-in-oil emulsion separation. Chemosphere. 2023, 337. 139431

[5]	Abujayyab M, Hasan SW, Lemaoui T, AlNashef IM, Arafat HA, Banat F. High-performance functionalized keratin for efficient lithium recovery: experimental and statistical physics insights. Desalination. 2025, 606. 118782

[6]	Ahmed J, Kumar VV, Kumar V, AlMomin S. High-pressure treatment of the green and orange Dunaliella salina biomass: effect on particle size distribution, small amplitude oscillatory shear rheology, and microstructure. Bioprocess Biosyst Eng. 2025, 48: 1025-1037.

[7]	Arundati AH, Ratri CR, Chalid M, Aqoma H, Nugraha AF. A combination of nonsolvent and thermally induced phase separation (N-TIPS) technique for the preparation of highly porous cellulose acetate membrane as lithium-ion battery separators. Ionics. 2024, 30: 123-133.

[8]	Awad ES, Sabirova TM, Tretyakova NA, Alsalhy QF, Figoli A, Salih IK. A mini-review of enhancing ultrafiltration membranes (UF) for wastewater treatment: performance and stability. ChemEngineering. 2021, 5. 34

[9]	Bagheripour E, Moghadassi AR, Hosseini SM, Van der Bruggen B, Parvizian F. Novel composite graphene oxide/chitosan nanoplates incorporated into PES based nanofiltration membrane: chromium removal and antifouling enhancement. J Ind Eng Chem. 2018, 62: 311-320.

[10]	Bouramdane Y, Fellak S, El Mansouri F, Boukir A. Impact of natural degradation on the aged lignocellulose fibers of Moroccan Cedar Softwood: structural elucidation by infrared spectroscopy (ATR-FTIR) and X-ray diffraction (XRD). Fermentation. 2022, 8. 698

[11]	Chen R, Zhao Q, Jia B, Wang Z, Du Y, Lu J. New insights into natural organic matter transformation on enhanced membrane performance through peroxymonosulfate activation by Fe-based amorphous alloys. Chem Eng J. 2025, 519. 165171

[12]	Dhongade SP, Malkapuram ST, Sonawane SH, Manickam S. High-performance MIL-53(Fe)-incorporated cellulose acetate membranes for efficient dye and wastewater treatment. Talanta Open. 2025, 12. 100517

[13]	Ghazal A, Khalifeh HA, Zuburtikudis I, Almustafa G, AlNashef I. Enhancing boron removal efficiency through a design of experiments approach with a customized hydrophobic deep eutectic solvent. J Mol Liq. 2025, 423. 126968

[14]	Grzybek P, Dudek G, van der Bruggen B. Cellulose-based films and membranes: a comprehensive review on preparation and applications. Chem Eng J. 2024, 495. 153500

[15]	Gullinkala T, Escobar I. A green membrane functionalization method to decrease natural organic matter fouling. J Membr Sci. 2010, 360: 155-164.

[16]	Guo Q, Sun C, Li Y, Li K, Tai X. Novel poly(9-hydroxyfluorene)/NiO flower-like microspheres with good energy storage performance for supercapacitor application. Polymer. 2025, 335. 128833

[17]

Gurav R, Bhatia SK, Choi T-R, Park Y-L, Park JY, Han Y-H, Vyavahare G, Jadhav J, Song H-S, Yang P, Yoon J-J, Bhatnagar A, Choi Y-K, Yang Y-H. Treatment of furazolidone contaminated water using banana pseudostem biochar engineered with facile synthesized magnetic nanocomposites. Bioresour Technol. 2020, 297. 122472

[18]	Hajivand P, Longo M, Mastropietro TF, Godbert N, Monteleone M, Bezzu CG, Armentano D, Jansen JC. Tailoring the thermal, mechanical, and gas transport properties of cellulose acetate membranes with ionic liquids for efficient propene/propane separation. Polymer. 2025, 333. 128679

[19]	Hastuti N, Khaerudini DS, Aini EN, Lukmandaru G, Hisankusuma J, Hertada MQ, Christiani MF, Razi MA, Abrori SA. The potential application of cellulose acetate membrane for CO2 adsorbent. Environ Technol. 2024, 45: 5818-5826.

[20]	Hazarika P, Duarah R, Goswami R, Rajguru P, Baruah S, Goswami PK, Feng X, Hazarika S. Electrospun nanofibrous adsorptive membranes for removal of heavy metals from wastewater via a flow-through adsorption/permeation process. Chem Eng J. 2025, 519. 164877

[21]	Hua L, Yu L, Dang F, Zhao H, Wei T. Preparation of sludge-based biochar loaded with ferromanganese and its removal mechanism of tetracycline hydrochloride. Environ Sci Pollut Res. 2023, 30: 101099-101109.

[22]	Idriss IM, Fadillah N, Shamsuddin N, Abu Bakar MS, Thongratkaew S, Faungnawakij K, Nugroho WA, Wibisono Y, Nandiyanto ABD, Bilad MR. Waste cellulose acetate-based dynamic membrane for NOM-containing river water filtration. J Environ Chem Eng. 2024, 12. 111756

[23]	Kazmi SAR, Husnain SM, Khan AR, Qureshi TM, Lemaoui T, AlNashef IM, Arafat HA, Shahzad F. Removal of nickel ions from industrial wastewater using tms-EDTA-functionalized Ti3C2Tx: experimental and statistical physics modeling. J Hazard Mater. 2025, 490. 137667

[24]	Krzeminski P, Vogelsang C, Meyn T, Köhler SJ, Poutanen H, de Wit HA, Uhl W. Natural organic matter fractions and their removal in full-scale drinking water treatment under cold climate conditions in Nordic capitals. J Environ Manage. 2019, 241: 427-438.

[25]	Kumar M, Sreedhar N, Thomas N, Mavukkandy M, Ismail RA, Aminabhavi TM, Arafat HA. Polydopamine-coated graphene oxide nanosheets embedded in sulfonated poly(ether sulfone) hybrid UF membranes with superior antifouling properties for water treatment. Chem Eng J. 2022, 433. 133526

[26]	Li J, Guo X, Panchal B, Wang J, Guo W, Liu B, Yuan Y, Liu S. Quantitative analysis of molecular structure characterization of different liptinite-rich coals using FTIR spectroscopy. Infrared Phys Technol. 2024, 141. 105458

[27]	Liu J, Lin Q, Gao J, Jia X, Cai M, Liang Q. Adsorption properties and mechanisms of methylene blue and tetracycline by nano-silica biochar composites activated by KOH. Chemosphere. 2023, 337. 139395

[28]	Liu S, Wang Y, Feng Z, Wang Y, Sun T. Hierarchical porous biochar with ultra-high specific surface area for rapid removal of antibiotics from water. New J Chem. 2021, 45: 17418-17427.

[29]	Ma R, Li J, Zeng P, Duan L, Dong J, Ma Y, Yang L. The application of membrane separation technology in the pharmaceutical industry. Membranes. 2024, 14. 24

[30]	Makowska M, Dziosa K. Influence of different pyrolysis temperatures on chemical composition and graphite-like structure of biochar produced from biomass of green microalgae Chlorella sp. Environ Technol Innov. 2024, 35. 103667

[31]	Merriman S, Chandra D, Borowczak M, Dhinojwala A, Benko D. Simultaneous determination of additive concentration in rubber using ATR-FTIR spectroscopy. Spectrochim Acta A Mol Biomol Spectrosc. 2022, 281. 121614

[32]	Minhas SA, Pandey RP, Abi Jaoude M, Hasan SW. MOF/polydopamine-modified MXene based mixed matrix membrane for per- and polyfluoroalkyl substances removal from real wastewater. Sep Purif Technol. 2025, 370. 133139

[33]	Mourdikoudis S, Liz-Marzán LM. Oleylamine in nanoparticle synthesis. Chem Mater. 2013, 25: 1465-1476.

[34]	Ndzimandze SS, Moyo W, Mahlangu OT, Muleja AA, Nkambule TTI, Kuvarega AT. Removal of natural organic matter fractions by kaolin/fly ash ceramic microfiltration membrane in drinking water: insights from a laboratory scale application. Adv Mater Interfaces. 2025, 12. 2400777

[35]	Peng B, Yao Z, Wang X, Crombeen M, Sweeney DG, Tam KC. Cellulose-based materials in wastewater treatment of petroleum industry. Green Energy Environ. 2020, 5: 37-49.

[36]	Peng S, Wang Z, Qi F, Li C, Xu M, Song Z, Sun D, Nan J. Novel insights into the interaction reactive components and synergistic fouling mechanisms of ultrafiltration by natural organic matter fractions and kaolin. Environ Res. 2022, 212. 113285

[37]	Le Pham TP, Abuhatab F, Lai QD, Sgouridis S, AlSuwaidi M, Alhseinat E. Fouling in reverse osmosis desalination: emphasis on composite fouling and coprecipitation. Sep Pur Rev. 2025.

[38]	Qiu L, Gong S, Qiu Q, Zhu X, Xu D, Kang X, Wu D, Wang F, Yang Z, Cheng X. Sodium citrate-modulated interfacial polymerization towards highly permeable NF membranes for simultaneously enhanced mineral/NOM selectivity and anti-fouling performance. Desalination. 2025, 601. 118541

[39]	Sena da Fonseca B, Piçarra S, Ferreira Pinto AP, Ferreira MJ, Montemor MF. TEOS-based consolidants for carbonate stones: the role of N1-(3-trimethoxysilylpropyl)diethylenetriamine. New J Chem. 2017, 41: 2458-2467.

[40]	Tahazadeh S, Mohammadi T, Tofighy MA, Khanlari S, Karimi H, Motejadded Emrooz HB. Development of cellulose acetate/metal-organic framework derived porous carbon adsorptive membrane for dye removal applications. J Membr Sci. 2021, 638. 119692

[41]	Tchio JA, Yerima N, Kaze CR, Kamseu E, Chinje FU, Leonelli C. Design and characterization of iron–calcium–aluminium–silicate–hydrate as low-temperature binder. Innov Infrastruct Solut. 2024, 9. 42

[42]	Wang Z, Lu B, Xiao N, Guo S, Liu C, Ai M. Structural and functional assessment of keratin extracted from chicken feathers using microwave-assisted l-cysteine method. Food Biosci. 2024, 61. 104712

[43]	Wei T, Hong H, Zhang H, Wu F. Comparative carbonization study of pyrolyzed biomass: new insights into the structure and composition evolution of biochar. Bioenerg Res. 2025, 18: 13.

[44]	Wei Y, Li K, Li P, Guo Z, Shi R, Zhao H, Sun T, Zhou C. Enhanced ceramic membranes filtration by PS pre-oxidation with CuO assisted FeSO4 catalytic for NOM removal in drinking water treatment. Sep Purif Technol. 2024, 345. 127333

[45]	Wen X, He C, Hai Y, Liu X, Ma R, Sun J, Yang X, Qi Y, Chen J, Wei H. Fabrication of a hybrid ultrafiltration membrane based on MoS2 modified with dopamine and polyethyleneimine. RSC Adv. 2021, 1126391-26402.

[46]	Wibisono Y, Fadillah N, Musyaffa AZ, Nugroho WA, Hashim NA, Thongratkaew S, Faungnawakij K, Umakoshi H, Shamsuddin N, Bilad MR. Waste cigarette filters-based polymer blends membrane for filtration of high loaded natural organic matter river water. Clean Eng Technol. 2024, 22. 100816

[47]	Wu J, Li K, Luo H, Li A, Yang X, Zhou D. Preparation of imprinted phenol gel with ultra-high adsorption capacity based on porous biochar: 5-stage tandem column, response surface method, and mechanism analysis. Sep Purif Technol. 2024, 349. 127789

[48]	Xi J, Zhang R, Ye L, Du X, Lu X. Multi-step preparation of Fe and Si modified biochar derived from waterworks sludge towards methylene blue adsorption. J Environ Manage. 2022, 304. 114297

[49]	Xiao M, Zhang X, Liu X, Chen Z, Tai X, Wang X. Recent progress in covalent organic framework-based membranes: design, synthesis, and applications in the fields of energy and the environment. ACS Macro Lett. 2025, 14: 1201-1220.

[50]	Yang S, Tang R, Dai Y, Wang T, Zeng Z, Zhang L. Fabrication of cellulose acetate membrane with advanced ultrafiltration performances and antibacterial properties by blending with HKUST-1@LCNFs. Sep Purif Technol. 2021, 279. 119524

[51]	Yang Y, Zhao F, Yang L, Zhang J, Park H-D, Li Z, Chen H, Zhang X, Gao M. Catalytic degradation of bisphenol a (BPA) in water by immobilizing silver-loaded graphene oxide (GO-Ag) in ultrafiltration membrane with finger-like structure. Chem Eng J. 2023, 474. 145577

[52]	Zhang R, Ding A, Cai X, Desmond P, He X, Li G, Liang H, Tang CY. Break through the trade-off between membrane fouling and pathogen removal in ultrafiltration process by poly(amino acid)s modified biochar. Sep Purif Technol. 2025, 356. 129847

[53]	Zhao H, Lang Y. Adsorption behaviors and mechanisms of florfenicol by magnetic functionalized biochar and reed biochar. J Taiwan Inst Chem Eng. 2018, 88: 152-160.