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31-10-2020 | Original Research

Robust and lightweight biofoam based on cellulose nanofibrils for high-efficient methylene blue adsorption

Authors: Beili Lu, Qiang Lin, Zhu Yin, Fengcai Lin, Xuerong Chen, Biao Huang

Published in: Cellulose | Issue 1/2021

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Abstract

Robust and ultralight biofoams had been successfully prepared using readily available and biocompatible cellulose nanofibrils (CNFs) as the matrix. The γ-glycidoxypropyltrimethoxysilane (GPTMS) was first added into the CNFs suspension to act as a crosslinker to form covalent linkages between cellulose chains. Then the gelatin was incorporated into the networks via reacting with the epoxy groups on GPTMS and forming hydrogen bonding with CNFs. The content of gelatin had a significant influence on the properties of the obtained foams. With the introduction of a small amount of gelatin, the foams exhibited significantly enhanced mechanical properties and stability in water in comparison with the CNF foams without GPTMS and/or gelatin. The foams containing the appropriate ratio of gelatin to CNFs possessed the high porosity (99.16%), ultralow density (0.0077 g/cm³), good mechanical properties, and abundant functional groups (hydroxyl and carboxylate groups). These features made it an ideal adsorbent toward methylene blue (MB) and the maximum adsorption capacity could reach up to 430.33 mg/g. Additionally, the cationic MB could be removed from the mixed cationic/anionic dye solutions with high selectivity, possibly due to the strong electrostatic interactions between MB and the adsorbent. Furthermore, the recycling test demonstrated the good reusability of this biofoam. Therefore, this work provides an environmentally benign method to fabricate robust CNF-based foams, which can be considered as green adsorbents for the treatment of water pollutants.

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Ali ZM, Gibson LJ (2013) The structure and mechanics of nanofibrillar cellulose foams. Soft Matter 9:1580–1588

Almeida CAP, Debacher NA, Downs AJ, Cottet L, Mello CAD (2009) Removal of methylene blue from colored effluents by adsorption on montmorillonite clay. J Colloid Interf Sci 332:46–53

An W, Jiang L, Sun J, Liew KM (2015) Correlation analysis of sample thickness, heat flux, and cone calorimetry test data of polystyrene foam. J Therm Anal Calorim 119:229–238

Batmaz R, Mohammed N, Zaman M, Minhas G, Tam KC (2014) Cellulose nanocrystals as promising adsorbents for the removal of cationic dyes. Cellulose 21:1655–1665

Bernardini J, Cinelli P, Anguillesi I, Coltelli MB, Lazzeri A (2015) Flexible polyurethane foams green production employing lignin or oxypropylated lignin. Eur Polym J 64:147–156

Bortoluz J, Ferrarini F, Bonetto LR, Crespo JS, Giovanela M (2020) Use of low-cost natural waste from the furniture industry for the removal of methylene blue by adsorption: isotherms, kinetics and thermodynamics. Cellulose 27:6445–6466

Budtova T (2019) Cellulose II aerogels: a review. Cellulose 26:81–121

Cervin NT, Johansson E, Benjamins J-W, Wagberg L (2015) On The mechanisms behind the stabilizing action of cellulose nanofibrils in wet-stable cellulose foams. Biomacromol 16:822–831

Chen Y, Zhou X, Lin Q, Jiang D (2014) Bacterial cellulose/gelatin composites: in situ preparation and glutaraldehyde treatment. Cellulose 21:2679–2693

Chen B, Cao Y, Zhao H, Long F, Feng X, Li J, Pan X (2020) A novel Fe³⁺-stabilized magnetic polydopamine composite for enhanced selective adsorption and separation of Methylene blue from complex wastewater. J Hazard Mater 392:122263PubMed

Cheng H, Li Y, Wang B, Mao Z, Xu H, Zhang L, Zhong Y, Sui X (2018) Chemical crosslinking reinforced flexible cellulose nanofiber-supported cryogel. Cellulose 25:573–582

Cui L, Kiernan S, Gilchrist MD (2009) Designing the energy absorption capacity of functionally graded foam materials. Mat Sci Eng A-Struct 507:215–225

Dashnyam K, Perez R, Lee EJ, Yun YR, Jang JH, Wall I, Kim HW (2014) Hybrid scaffolds of gelatin-siloxane releasing stromal derived factor-1 effective for cell recruitment. J Biomed Mater Res A 102:1859–1867PubMed

Dong Z, Zhao J, Du JF, Li CC, Zhao L (2016) Radiation synthesis of spherical cellulose-based adsorbent for efficient adsorption and detoxification of Cr(VI). Radiat Phys Chem 126:68–74

dos Santos PL, Guimarães IR, Mesquita AM, Guerreiro MC (2016) Copper-doped akaganeite: application in catalytic Cupro-Fenton reactions for oxidation of methylene blue. J Mol Catal A-Chem 424:1–30

Feng Y, Li X, Zhang Q, Ye D, Li M, You R, Xu W (2019) Fabrication of porous silk fibroin/cellulose nanofibril sponges with hierarchical structure using a lithium bromide solvent system. Cellulose 26:1013–1023

French AD (2014) Idealized powder diffraction patterns for cellulose polymorphs. Cellulose 21:885–896

Fu J, Chen Z, Wang M, Liu S, Zhang J, Zhang J, Han R, Xu Q (2015) Adsorption of methylene blue by a high-efficiency adsorbent (polydopamine microspheres): kinetics, isotherm, thermodynamics and mechanism analysis. Chem Eng J 259:53–61

Fujisawa S, Okita Y, Fukuzumi H, Saito T, Isogai A (2011) Preparation and characterization of TEMPO-oxidized cellulose nanofibril films with free carboxyl groups. Carbohyd polym 84:579–583

Ghorbani F, Zamanian A, Behnamghader A, Joupari MD (2018) A novel pathway for in situ synthesis of modified gelatin microspheres by silane coupling agents as a bioactive platform. J Appl Polym Sci 135:46739

Gordeyeva KS, Fall AB, Hall S, Wicklein B, Bergström L (2016) Stabilizing nanocellulose-nonionic surfactant composite foams by delayed Ca-induced gelation. J Colloid Intref Sci 472:44–51

Hirota M, Tamura N, Saito T, Isogai A (2009) Surface carboxylation of porous regenerated cellulose beads by 4-acetamide-TEMPO/NaClO/NaClO₂ system. Cellulose 16:841–851

Javadi A, Zheng Q, Payen F, Javadi A, Altin Y, Cai Z, Sabo R, Gong S (2013) Polyvinyl alcohol–cellulose nanofibrils-graphene oxide hybrid organic aerogels. ACS Appl Mater Inter 5:5969–5975

Ji Z, Shen X, Yang J, Xu Y, Zhu G, Chen K (2013) Graphene oxide modified Ag₂O nanocomposites with enhanced photocatalytic activity under visible-light irradiation. Eur J Inorg Chem 36:6119–6125

Kim U-J, Kim D, You J, Choi JW, Kimura S, Wada M (2018) Preparation of cellulose-chitosan foams using an aqueous lithium bromide solution and their adsorption ability for Congo red. Cellulose 25:2615–2628

Kong L, Qiu F, Zhao Z, Zhang X, Zhang T, Pan J, Yang D (2016) Removal of brilliant green from aqueous solutions based on polyurethane foam adsorbent modified with coal. J Clean Prod 137:51–59

Kumari S, Chauhan GS, Ahn J (2016) Novel cellulose nanowhiskers-based polyurethane foam for rapid and persistent removal of methylene blue from its aqueous solutions. Chem Eng J 304:728–736

Kumari S, Chauhan GS, Monga S, Kaushik A, Ahn JH (2016) New lignin-based polyurethane foam for wastewater treatment. RSC Adv 6:77768–77776

Kwak HW, You J, Lee ME, Jin HJ (2019) Prevention of cellulose nanofibril agglomeration during dehydration and enhancement of redispersibility by hydrophilic gelatin. Cellulose 26:4357–4369

Lavoine N, Bergström L (2017) Nanocellulose-based foams and aerogels: processing, properties, and applications. J Mater Chem A 5:16105–16117

Lee J, Jung I (2019) Tuning sound absorbing properties of open cell polyurethane foam by impregnating graphene oxide. Appl Acoust 151:10–21

Lefebvre L, Agusti G, Bouzeggane A, Edouard D (2017) Adsorption of dye with carbon media supported on polyurethane open cell foam. Catal Today 301:98–103

Li R, Du J, Zheng Y, Wen Y, Zhang X, Yang W, Zhang X, Yang W, Lue A, Zhang L (2017) Ultra-lightweight cellulose foam material: preparation and properties. Cellulose 24:1417–1426

Li W, Ma Q, Bai Y, Xu D, Ma H (2018) Facile fabrication of gelatin/bentonite composite beads for tunable removal of anionic and cationic dye. Chem Eng Res Des 134:336–346

Li J, Wang Y, Zhang L, Xu Z, Dai H, Wu W (2019) Nanocellulose/gelatin composite cryogels for controlled drug release. ACS Sustainable Chem Eng 7:6381–6389

Li J, Yan Q, Cai Z (2019) Fabrication and characterization of emulsified and freeze-dried epoxy/cellulose nanofibril nanocomposite foam. Cellulose 26:1769–1780

Lin Q, Gao M, Chang J, Ma H (2016) Adsorption properties of crosslinking carboxymethyl cellulose grafting dimethyldiallylammonium chloride for cationic and anionic dyes. Carbohyd polym 151:283–294

Lin Q, Wu Y, Jiang X, Lin F, Liu X, Lu B (2019) Removal of bisphenol a from aqueous solution via host-guest interactions based on beta-cyclodextrin grafted cellulose bead. Int J Biol Macromol 104:1–9

Lin F, You Y, Yang X, Jiang X, Lu Q, Wang T, Huang B, Lu B (2017) Microwave-assisted facile synthesis of TEMPO-oxidized cellulose beads with high adsorption capacity for organic dyes. Cellulose 24:5025–5040

Liu L, Wan Y, Xie Y, Zhai R, Zhang B, Liu J (2012) The removal of dye from aqueous solution using alginate-halloysite nanotube beads. Chem Eng J 187:210–216

Lu J, Askeland P, Drzal LT (2008) Surface modification of microfibrillated cellulose for epoxy composite applications. Polymer 49:1285–1296

Martoïa F, Cochereau T, Dumont PJJ, Orgéas L, Terrien M, Belgacem MN (2016) Cellulose nanofibril foams: links between ice-templating conditions, microstructures and mechanical properties. Mater Design 104:376–391

Mohanty K, Naidu JT, Meikap BC, Biswas MN (2006) Removal of crystal violet from wastewater by activated carbons prepared from rice husk. Ind Eng Chem Res 45:5165–5171

Nouri-Felekori M, Khakbiz M, Nezafati N, Mohammadi J, Eslaminejad MB (2019) Comparative analysis and properties evaluation of gelatin microspheres crosslinked with glutaraldehyde and 3-glycidoxypropyltrimethoxysilane as drug delivery systems for the antibiotic vancomycin. Int J Pharmaceut 557:208–220

Ottenhall A, Seppänen T, Ek M (2018) Water-stable cellulose fiber foam with antimicrobial properties for bio based low-density materials. Cellulose 25:2599–2613

Oz M, Lorke DE, Hasan M, Petroianu GA (2011) Cellular and molecular actions of methylene blue in the nervous system. Med Res Rev 31:93–117PubMedPubMedCentral

Palomino-Durand C, Lopez M, Cazaux F, Martel B, Blanchemain N, Chai F (2019) Influence of the soluble-insoluble ratios of cyclodextrins polymers on the viscoelastic properties of injectable chitosan-based hydrogels for biomedical application. Polymers 11:214PubMedCentral

Pan ZZ, Nishihara H, Iwanmura S, Sekiguchi T, Sato A, Isogai A, kang F, Kyotani T, Yang QH, (2016) Cellulose nanofiber as a distinct structure-directing agent for xylem-like microhoneycomb monoliths by unidirectional freeze-drying. ACS Nano 10:10689–10697PubMed

Prakobna K, Berthold F, Medina L, Berglund LA (2016) Mechanical performance and architecture of biocomposite honeycombs and foams from core–shell holocellulose nanofibers. Compos Part A-Appl S 88:116–122

Ren F, Li Z, Tan W, Liu X, Sun Z, Ren P, Yan D (2018) Facile preparation of 3D regenerated cellulose/graphene oxide composite aerogel with high-efficiency adsorption towards methylene blue. J Colloid Interf Sci 532:58–67

Saito T, Isogai A (2004) TEMPO-mediated oxidation of native cellulose. The effect of oxidation conditions on chemical and crystal structures of the water-insoluble fractions. Biomacromol 5:1983–1989

Saito T, Nishiyama Y, Putaux J-L, Vignon M, Isogai A (2006) Homogeneous suspensions of individualized microfibrils from TEMPO-catalyzed oxidation of native cellulose. Biomacromol 7:1687–1691

Sajab MS, Chia CH, Chan CH, Zakaria S, Kaco H, Chook SW, Chin SX, Noor AM (2016) Bifunctional graphene oxide–cellulose nanofibril aerogel loaded with Fe(III) for the removal of cationic dye via simultaneous adsorption and Fenton oxidation. RSC Adv 6:19819–19825

Segal L, Creely JJ, Martin AE, Conrad CM (1959) An empirical method for estimating the degree of crystallinity of native cellulose using the X-Ray diffractometer. Text Res J 29:786–794

Sehaqui H, Salajková M, Zhou Q, Berglund LA (2010) Mechanical performance tailoring of tough ultra-high porosity foams prepared from cellulose I nanofiber suspensions. Soft Matter 6:1824–1832

Sehaqui H, Zhou Q, Berglund LA (2011) High-porosity aerogels of high specific surface area prepared from nanofibrillated cellulose (NFC). Compos Sci Technol 71:1593–1599

Sèbe G, Ham-Pichavant F, Barbour E, Koffi ALC, Tingaut P (2012) Supramolecular structure characterization of cellulose II nanowhiskers produced by acid hydrolysis of cellulose I substrates. Biomacromol 13:570–578

Sharma G, Kumar A, Sharma S, Naushad M, Ghfar AA, Al-Muhtaseb AH, Ahamad T, Sharma N, Stadler FJ (2020) Carboxymethyl cellulose structured nano-adsorbent for removal of methyl violet from aqueous solution: isotherm and kinetic analyses. Cellulose 27:3677–3691

Shen C, Mao Z, Xu H, Zhang L, Zhong Y, Wang B, Feng X, Tao C, Sui X (2019) Catalytic MOF-loaded cellulose sponge for rapid degradation of chemical warfare agents simulant. Carbohyd Polym 213:184–191

Song T, Tanpichai S, Oksman K (2016) Cross-linked polyvinyl alcohol (PVA) foams reinforced with cellulose nanocrystals (CNCs). Cellulose 23:1925–1938

Spaic M, Small DP, Cook JR, Wan W (2014) Characterization of anionic and cationic functionalized bacterial cellulose nanofibres for controlled release applications. Cellulose 21:1529–1540

Tonda-Turo C, Cipriani E, Gnavi S, Chiono V, Mattu C, Gentile P, Perroteau I, Zanetti M, Ciardelli G (2013) Crosslinked gelatin nanofibres: Preparation, characterisation and in vitro studies using glial-like cells. Mat Sci Eng C 33:2723–2735

Tonda-Turo C, Gentile P, Saracino S, Chiono V, Nandagiri VK, Muzio G, Canuto RA, Ciardelli G (2011) Comparative analysis of gelatin scaffolds crosslinked by genipin and silane coupling agent. Int J Biol Macromol 49:700–706PubMed

Udoetok IA, Dimmick RM, Wilson LD, Headley JV (2016) Adsorption properties of cross-linked cellulose-epichlorohydrin polymers in aqueous solution. Carbohyd Polym 136:329–340

Wang H, Li J, Ding N, Zeng X, Tang X, Sun Y, Lei T, Lin L (2019) Eco-friendly Polymer Nanocomposite Hydrogel Enhanced by Cellulose Nanocrystal and Graphitic-like Carbon Nitride Nanosheet. Chem Eng J 386:124021

Wang Y, Li Y, Li H, Zheng H, Du Q (2019) Equilibrium, kinetic and thermodynamic studies on methylene blue adsorption by konjac glucomannan/activated carbon aerogel. J Polym Environ 27:1342–1351

Wang D, Yu H, Fan X, Gu J, Ye S, Yao J, Ni Q (2018) ACS Appl Mater Interfaces 10:20755–20766PubMed

Wang W, Zhang X, Teng A, Liu A (2017) Mechanicalreinforcement of gelatin hydrogel with nanofiber cellulose as a function of percolation concentration. Int J Biol Macromol 103:226–233PubMed

Yener J, Kopac T, Dogu G, Dogu T (2008) Dynamic analysis of sorption of methylene blue dye on granular and powdered activated carbon. Chem Eng J 144:400–406

Yurdakoç M, Seki Y, Karahan S, Yurdakoç K (2005) Kinetic and thermodynamic studies of boron removal by Siral 5, Siral 40, and Siral 80. J Colloid Interf Sci 286:440–446

Zamani S, Tabrizi NS (2015) Removal of methylene blue from water by graphene oxide aerogel: thermodynamic, kinetic, and equilibrium modeling. Res Chem Intermediat 41:7945–7963

Zhang B, Wang S, Fu L, Zhang L (2018) Synthesis and evaluation of 8-aminoquinoline-grafted poly(glycidyl methacrylate) for the recovery of Pd(II) from highly acidic aqueous solutions. Polymers 10:437PubMedCentral

Zhou T, Cheng X, Pan Y, Li C, Gong L (2019) Mechanical performance and thermal stability of polyvinyl alcohol-cellulose aerogels by freeze drying. Cellulose 26:1747–1755

Title: Robust and lightweight biofoam based on cellulose nanofibrils for high-efficient methylene blue adsorption
Authors: Beili Lu
Qiang Lin
Zhu Yin
Fengcai Lin
Xuerong Chen
Biao Huang
Publication date: 31-10-2020
Publisher: Springer Netherlands
Published in: Cellulose / Issue 1/2021
Print ISSN: 0969-0239
Electronic ISSN: 1572-882X
DOI: https://doi.org/10.1007/s10570-020-03553-4

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