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Journal of Materials Science

Erschienen in:

25.02.2020 | Polymers & biopolymers

Superhydrophobic paper fabricated via nanostructured titanium dioxide-functionalized wood cellulose fibers

verfasst von: Qing Wang, Dong Xie, Junjia Chen, Guang Liu, Mingguang Yu

Erschienen in: Journal of Materials Science | Ausgabe 16/2020

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Abstract

Herein, an eco-friendly and straightforward method was provided for the fabrication of superhydrophobic paper from native wood cellulose fibers via in situ hydrolysis of tetraethyl titanate(IV) without any chemical pretreatment. By simply adjusting the amount of acetic acid (HAc), the surface micro/nanomorphology could be well controlled. After papermaking and hexadecyltrimethoxysilane modification, superhydrophobic paper can be easily achieved with static water contact angle of 152.3° (± 1.3°). The paper also possessed good self-cleaning property against contamination and durability toward mechanical damages of finger wiping over 50 cycles as well as excellent oil/water separation, which expands its utility in various paper-based technologies. The whole procedure possesses the advantages of friendly raw material, mild reaction conditions and with no toxic modifier, which hold potential application in cellulose-based superhydrophobic material in large scale.

Vorheriger Artikel Hydroxypropyl-modified and organosolv lignin/bio-based polyamide blend filaments as carbon fibre precursors’

Nächster Artikel Determination of the X-ray attenuation coefficient of bismuth oxychloride nanoplates in polydimethylsiloxane

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[1]

Ghasemi S, Tajvidi M, Gardner DJ, Bousfield DW, Shaler SM (2018) Effect of wettability and surface free energy of collection substrates on the structure and morphology of dry-spun cellulose nanofibril filaments. Cellulose 25:6305–6317CrossRef

[2]

Nechyporchuk O, Yu J, Nierstrasz VA, Bordes R (2017) Cellulose nanofibril-based coatings of woven cotton fabrics for improved inkjet printing with a potential in e-textile manufacturing. ACS Sustain Chem Eng 5:4793–4801CrossRef

[3]

Tarrés Q, Oliver-Ortega H, Ferreira PJ, Pèlach MÀ, Mutjé P, Delgado-Aguilar M (2018) Towards a new generation of functional fiber-based packaging: cellulose nanofibers for improved barrier, mechanical and surface properties. Cellulose 25:683–695CrossRef

[4]

Hirotaka K, Masaya N, Akira I (2017) Ionic liquid mediated dispersion and support of functional molecules on cellulose fibers for stimuli-responsive chromic paper devices. ACS Appl Mater Interfaces 9:40914–40920CrossRef

[5]

Ngo YH, Li D, Simon GP, Garnier G (2013) Formation of polyelectrolyte-gold nanoparticle necklaces on paper. J Colloid Interface Sci 405:71–77CrossRef

[6]

Wan C, Jiao Y, Li J (2017) A cellulose fibers-supported hierarchical forest-like cuprous oxide/copper array architecture as a flexible and free-standing electrode for symmetric supercapacitors. J Mater Chem A 5:17267–17278CrossRef

[7]

Duan C, Meng J, Wang X, Meng X, Sun X, Xu Y, Zhao W, Ni Y (2018) Synthesis of novel cellulose-based antibacterial composites of Ag nanoparticles@metal-organic frameworks@carboxymethylated fibers. Carbohydr Polym 193:82–88CrossRef

[8]

Kong X, Zhang J, Xuan Q, Lu J, Feng J (2018) Superhydrophobic coating for antifouling of chinese paintings. Langmuir 34:8294–8301CrossRef

[9]

Zhang JC, Chen FZ, Lu Y et al (2020) Superhydrophilic-superhydrophobic patterned surfaces on glass substrate for water harvesting. J Mater Sci 55:498–508. https://doi.org/10.1007/s10853-019-04046-x CrossRef

[10]

Su X, Li H, Lai X, Zhang L, Liang T, Feng Y, Zeng X (2017) Polydimethylsiloxane-based superhydrophobic surfaces on steel substrate: fabrication, reversibly extreme wettability and oil–water separation. ACS Appl Mater Interfaces 9:3131–3141CrossRef

[11]

Gao A, Yan Y, Li T, Liu F (2019) Biomimetic urchin-like surface based on poly (lactic acid) membrane for robust anti-wetting and anti-bacteria properties. Mater Lett 237:240–244CrossRef

[12]

Guo DY, Hou K, Xu SP, Lin YG, Li L, Wen XF, Pi PH (2018) Superhydrophobic-superoleophilic stainless steel meshes by spray-coating of a POSS hybrid acrylic polymer for oil–water separation. J Mater Sci 53:6403–6413. https://doi.org/10.1007/s10853-017-1542-3 CrossRef

[13]

Yin K, Du H, Dong X, Wang C, Duan J, He J (2017) A simple way to achieve bioinspired hybrid wettability surface with micro/nanopatterns for efficient fog collection. Nanoscale 9:14620–14626CrossRef

[14]

Yin K, Yang S, Dong X, Chu D, Duan J, He J (2018) Robust laser-structured asymmetrical PTFE mesh for underwater directional transportation and continuous collection of gas bubbles. Appl Phys Lett 112:243701–243705CrossRef

[15]

Yu M, Lin B, Chen S, Deng Q, Liu G, Wang Q (2018) Biomimetic fabrication of superhydrophobic loofah sponge: robust for highly efficient oil–water separation in harsh environments. RSC Adv 8:24297–24304CrossRef

[16]

Seeharaj P, Pasupong P, Detsri E, Damrongsak P (2018) Superhydrophobilization of SiO2 surface with two alkylsilanes for an application in oil/water separation. J Mater Sci 53:4828–4839. https://doi.org/10.1007/s10853-017-1925-5 CrossRef

[17]

Cheng Q, Ye D, Chang C, Zhang L (2017) Facile fabrication of superhydrophilic membranes consisted of fibrous tunicate cellulose nanocrystals for highly efficient oil/water separation. J Membr Sci 525:1–8CrossRef

[18]

Wang Y, Li X, Hu H, Liu G, Rabnawaz M (2014) Hydrophilically patterned superhydrophobic cotton fabrics and their use in ink printing. J Mater Chem A 2:8094–8102CrossRef

[19]

Pegah K, Alistair WTK, Gabriel JP, Leena-Sisko J, Mauri AK, Robin HAR (2018) Superhydrophobic paper from nanostructured fluorinated cellulose esters. ACS Appl Mater Interfaces 10:11280–11288CrossRef

[20]

Peng L, Meng Y, Li H (2018) Facile fabrication of superhydrophobic paper with improved physical strength by a novel layer-by-layer assembly of polyelectrolytes and lignosulfonates-amine. Cellulose 23:2073–2085CrossRef

[21]

Yue X, Zhang T, Yang D, Qiu F, Li Z (2018) Janus ZnO-cellulose/MnO₂ hybrid membranes with asymmetric wettability for highly-efficient emulsion separations. Cellulose 25:5951–5965CrossRef

[22]

Yuan Z, Wen Y (2018) Enhancement of hydrophobicity of nanofibrillated cellulose through grafting of alkyl ketene dimer. Cellulose 25:6863–6871CrossRef

[23]

Avijit B, Mohd AG, Swathy JR, Kam CT, Sarit KD, Robin HAR, Thalappil P (2017) Organic solvent-free fabrication of durable and multifunctional superhydrophobic paper from waterborne fluorinated cellulose nanofiber building blocks. ACS Nano 11:11091–11099CrossRef

[24]

Satapathy M, Varshney P, Nanda D, Panda A (2017) Fabrication of superhydrophobic and superoleophilic polymer composite coatings on cellulosic filter paper for oil–water separation. Cellulose 24:4405–4418CrossRef

[25]

Liu S, Zhou H, Wang H et al (2017) Argon plasma treatment of fluorine-free silane coatings: a facile, environment-friendly method to prepare durable, superhydrophobic fabrics. Adv Mater Interfaces 4:1700027–1700035CrossRef

[26]

Yang R, Zhu Y, Chen F, Dong L, Xiong Z (2017) Luminescent, fire-resistant, and water-proof ultralong hydroxyapatite nanowire-based paper for multimode anticounterfeiting applications. ACS Appl Mater Interfaces 9:25455–25464CrossRef

[27]

Chen X, Kuo D, Lu D (2016) N-doped mesoporous TiO₂ nanoparticles synthesized by using biological renewable nanocrystalline cellulose as template for the degradation of pollutants under visible and sun light. Chem Eng J 295:192–200CrossRef

[28]

Miao X, Qu D, Yang D, Nie B, Zhao Y, Fan H, Sun Z (2018) Synthesis of carbon dots with multiple color emission by controlled graphitization and surface functionalization. Adv Mater 30:1704740–1704747CrossRef

[29]

Wang Q, Chen G, Yu Z, Ouyang X, Tian J, Yu M (2018) Photoluminescent composites of lanthanide-based nanocrystal-functionalized cellulose fibers for anticounterfeiting applications. ACS Sustain Chem Eng 6:13960–13967CrossRef

[30]

Erdem B, Hunsicker RA, Simmons GW, Sudol ED, Dimonie VL, El-Aasser MS (2001) XPS and FTIR surface characterization of TiO₂ particles used in polymer encapsulation. Langmuir 17:2664–2669CrossRef

[31]

Li W, Li L, Wu X et al (2018) High infrared blocking cellulose film based on amorphous to anatase transition of TiO₂ via atomic layer deposition. ACS Appl Mater Inter 10:21056–21060CrossRef

[32]

Chen B, Qiu J, Sakai E, Kanazawa N, Liang R, Feng H (2016) Robust and superhydrophobic surface modification by a “Paint + Adhesive” method: applications in self-cleaning after oil contamination and oil–water separation. ACS Appl Mater Interfaces 8:17659–17667CrossRef

[33]

Yu J, Su Y, Cheng B, Zhou M (2006) Effects of pH on the microstructures and photocatalytic activity of mesoporous nanocrystalline titania powders prepared via hydrothermal method. J Mol Catal A Chem 258:104–112CrossRef

[34]

Yu J, Zhao X, Zhao Q (2000) Effect of surface structure on photocatalytic activity of TiO₂ thin films prepared by sol-gel method. Thin Solid Films 379:7–14CrossRef

[35]

Li X, Chen X, Liu S, Chen X, Wang H, Liu Z (2007) Preparation and characterization of nanosize TiO₂ photocatalyst obtained from acid catalyzed hydrolysis method. Chin J Appl Chem 24:1279–1283

[36]

Lu Y, Sun Q, Liu T, Yang D, Liu Y, Li J (2013) Fabrication, characterization and photocatalytic properties of millimeter-long TiO₂ fiber with nanostructures using cellulose fiber as a template. J Alloys Compd 577:569–574CrossRef

[37]

Zhang Q, Gao L, Guo J (2000) Preparation and spectral characterization of quantum-size titanium dioxide in the rutile phase. Chin J Inorg Mater 15:929–934

[38]

Wang Q, Yu M, Chen G, Chen Q, Tian J (2017) Facile fabrication of superhydrophobic/superoleophilic cotton for highly efficient oil/water separation. BioResources 12:643–654

[39]

Wang Q, Yu M, Chen G, Chen Q, Tian J (2017) Robust fabrication of fluorine-free superhydrophobic steel mesh for efficient oil/water separation. J Mater Sci 52:2549–2559. https://doi.org/10.1007/s10853-016-0548-6 CrossRef

[40]

Yu M, Wang Q, Zhang M, Deng Q, Chen D (2017) Facile fabrication of raspberry-like composite microspheres for the construction of superhydrophobic films and applications in highly efficient oil–water separation. RSC Adv 7:39471–39479CrossRef

[41]

Hayaka F, Tsuguyuki S, Tadahisa I, Yoshiaki K, Akira I (2009) Transparent and high gas barrier films of cellulose nanofibers prepared by TEMPO-mediated oxidation. Biomacromol 10:162–165CrossRef

[42]

Huang Z, Gurney R, Wang T, Liu D (2018) Environmentally durable superhydrophobic surfaces with robust photocatalytic self-cleaning and self-healing properties prepared via versatile film deposition methods. J Colloid Interface Sci 527:107–116CrossRef

[43]

Wang Q, Chen G, Tian J, Yu Z, Deng Q, Yu M (2018) Facile fabrication of fluorine-free, transparent and self-cleaning superhydrophobic coatings based on biopolymer castor oil. Mater Lett 230:84–87CrossRef

Titel: Superhydrophobic paper fabricated via nanostructured titanium dioxide-functionalized wood cellulose fibers
verfasst von: Qing Wang
Dong Xie
Junjia Chen
Guang Liu
Mingguang Yu
Publikationsdatum: 25.02.2020
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 16/2020
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-020-04489-7

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