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Fibers and Polymers

Published in:

15-04-2024 | Regular Article

Towards the Development of One-Step Scalable Self-Cleaning and Stain-Resistant Coating on Cellulosic Wood

Authors: Rashi Gururani, Sapan Kumar Pandit, Preeti Kumari, Aditya Kumar

Published in: Fibers and Polymers | Issue 5/2024

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Abstract

In this study, hydrophilic cellulosic wood (Tectona grandis) is modified into superhydrophobic wood with the aid of octadecyltrichlorosilane (OTS) and silica nanoparticles (SiO₂) using one-step facile method. The prepared superhydrophobic wood possessed water contact angle (WCA) of 167 ± 2° and the sliding angle was less than 4°. The surface morphology was examined by scanning electron microscopy (SEM) and it showed agglomeration of nanostructures on the surface of superhydrophobic wood. Fourier transform infrared spectroscopy was used to analyse the functional groups present on the produced wood, and the results showed the existence of –\({{\text{CH}}}_{2}\) and –\({{\text{CH}}}_{3}\) groups. The exceptional self-cleaning and stain resistance of modified wood made it suitable for a variety of applications. Also, it is mechanically durable as it underwent and sustained tape peeling, sand abrasion and water jet impact. The modified wood demonstrated excellent durability in exposure to UV and on exposure to solutions of varying pH. This makes the fabricated wood suitable for various applications.

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E.E. Thybring, M. Kymäläinen, L. Rautkari, Moisture in modified wood and its relevance for fungal decay. IForest. 11(3), 418–422 (2018)CrossRef

M.R. Pelaez-Samaniego, V. Yadama, E. Lowell, R. Espinoza-Herrera, A review of wood thermal pretreatments to improve wood composite properties. Wood Sci. Technol. 47(6), 1285–1319 (2013)CrossRef

X. Han, Z. Wang, Q. Zhang, J. Pu, A simple and efficient method to fabricate superhydrophobic wood with enhanced mechanical durability. Forests 10(9), 750 (2019)CrossRef

B. Bhushan, Biomimetics: lessons from nature—an overview. Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 2009(367), 1445–1486 (1893)

M. Ma, R.M. Hill, Superhydrophobic surfaces. Curr. Opin. Colloid Interface Sci. 11(4), 193–202 (2006)CrossRef

B.K. Tudu, V. Gupta, A. Kumar, A. Sinhamahapatra, Freshwater production via efficient oil-water separation and solar-assisted water evaporation using black titanium oxide nanoparticles. J. Colloid Interface Sci. 566, 183–193 (2020)CrossRefPubMed

B. K. Tudu, A. Kumar, B. Bhushan, Facile approach to develop anti-corrosive superhydrophobic aluminium with high mechanical, chemical and thermal durability. Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 377(2138), 20180272 (2019)

P. Chauhan, A. Kumar, Development of a microbial coating for cellulosic surface using Aloe vera and Silane. Carbohydr. Polym. Technol. Appl. 1, 100015 (2020)

S.H. Kim, Fabrication of superhydrophobic surfaces. J. Adhes. Sci. Technol. 22(3–4), 235–250 (2008)CrossRef

10.

J. Jeevahan, M. Chandrasekaran, G. Britto Joseph, R.B. Durairaj, G. Mageshwaran, Superhydrophobic surfaces: a review on fundamentals, applications, and challenges. J. Coatings Technol. Res. 15(2), 231–250 (2018)CrossRef

11.

Z. Chen, X. Su, W. Wu, S. Chen, X. Zhang, Y. Wu, H. Xie, K. Li, Superhydrophobic PDMS@TiO2 wood for photocatalytic degradation and rapid oil-water separation. Surf. Coatings Technol. 434, 128182 (2022)CrossRef

12.

J. Ou, G. Zhao, F. Wang, W. Li, S. Lei, X. Fang, A.R. Siddiqui, Y. Xia, A. Amirfazli, Durable superhydrophobic wood via one-step immersion in composite silane solution. ACS Omega 6(11), 7266–7274 (2021)CrossRefPubMedPubMedCentral

13.

Q. Lu, R. Cheng, H. Jiang, S. Xia, K. Zhan, T. Yi, J.J. Morrell, L. Yang, H. Wan, G. Du, W. Gao, Superhydrophobic wood fabricated by epoxy/Cu2(OH)3Cl NPs/stearic acid with performance of desirable self-cleaning, anti-mold, dimensional stability, mechanical and chemical durability. Colloids Surf A Physicochem Eng Asp 647(May), 129162 (2022)CrossRef

14.

F.G. Adamopoulos, E.C. Vouvoudi, D.S. Achilias, I. Karapanagiotis, Fluorosilane water-repellent coating for the protection of marble, wood and other materials. Heritage 4(4), 2668–2675 (2021)CrossRef

15.

S.K. Pandit, B.K. Tudu, I.M. Mishra, A. Kumar, Development of stain resistant, superhydrophobic and self-cleaning coating on wood surface. Prog. Org. Coatings 139, 105453 (2020)CrossRef

16.

S. Jia, M. Liu, Y. Wu, S. Luo, Y. Qing, H. Chen, Facile and scalable preparation of highly wear-resistance superhydrophobic surface on wood substrates using silica nanoparticles modified by VTES. Appl. Surf. Sci. 386, 115–124 (2016)CrossRef

17.

S. M. Shah, U. Zulfiqar, S. Z. Hussain, I. Ahmad, Habib-ur-Rehman, I. Hussain, T. Subhani, A durable superhydrophobic coating for the protection of wood materials. Mater Lett. 203, 17–20 (2017)

18.

M. Xia, T. Yang, S. Chen, G. Yuan, Fabrication of superhydrophobic Eucalyptus wood surface with self-cleaning performance in air and oil environment and high durability. Colloids Interface Sci. Commun. 36, 100264 (2020)CrossRef

19.

A. Kumar, B.K. Tudu, S.K. Pandit, Development of novel anti-wetting coating on cellulosic surface using low carbon butyric acid. Cellulose 28, 4825–4834 (2021)CrossRef

20.

S.A. Kulkarni, S.B. Ogale, K.P. Vijayamohanan, Tuning the hydrophobic properties of silica particles by surface silanization using mixed self-assembled monolayers. J. Colloid Interface Sci. 318(2), 372–379 (2008)CrossRefPubMed

21.

J. Sagiv, Organized monolayers by adsorption. 1. Formation and structure of oleophobic mixed monolayers on solid surfaces. J. Am. Chem. Soc. 102(1), 92–98 (1980)CrossRef

22.

X. Yang, H. Wang, P. Wang, X. Yang, H. Mao, Thermal stability of octadecyltrichlorosilane and perfluorooctyltriethoxysilane monolayers on SiO2. Nanomaterials 10(2), 210 (2020)CrossRefPubMedPubMedCentral

23.

S. Sinha, C.H. Wang, M. Mukherjee, Rubrene on differently treated SiO2/Si substrates: a comparative study by atomic force microscopy, x-ray absorption and photoemission spectroscopies techniques. Thin Solid Films 638, 167–172 (2017)CrossRef

24.

Z.G. Bai, Y.Y. Bai, G.P. Zhang, S.Q. Wang, B. Zhang, A hydrogen bond based self-healing superhydrophobic octadecyltriethoxysilane−lignocellulose/silica coating. Prog. Org. Coatings 2021(151), 106104 (2020)

25.

T. Oh, W. K. Jong, Study on the interfacial properties at the OTS treated SiO2 film. Proceedings of the 2008 International Conference on Condition Monitoring and Diagnosis, C, vol. 2007 (2008), pp 276–279

26.

L.A. Beneditt-Jimenez, N.A. Ulloa-Castillo, J. Iturbe-Ek, O. Martínez-Romero, A. Elías-Zúñiga, A.O. Sustaita, A hybrid superhydrophobic/hydrophilic surface based on SiO2 nanoparticles over a clay substrate for enhanced dew yield potential. Appl. Sci. 12(3), 1526 (2022)CrossRef

27.

J.X.H. Wong, H.Z. Yu, Preparation of transparent superhydrophobic glass slides: demonstration of surface chemistry characteristics. J. Chem. Educ. 90(9), 1203–1206 (2013)CrossRef

28.

I.M. Hauner, A. Deblais, J.K. Beattie, H. Kellay, D. Bonn, The dynamic surface tension of water. J. Phys. Chem. 8, 1599–1603 (2017)

29.

C.H. Whitnah, The surface tension of milk. A review. J. Dairy Sci. 42, 1437–1449 (1959)CrossRef

30.

S.S. Yadav, B.S. Sikarwar, P. Ranjan, R. Janardhanan, A. Goyal, Surface tension measurement of normal human blood samples by pendant drop method. J. Med. Eng. Technol. 44, 227–236 (2020)CrossRefPubMed

31.

E.A. Thomas, D.H. Poritz, D.L. Muirhead, Urine advancing contact angle on several surfaces. J. Adhes. Sci. Technol. 23, 1917–1923 (2009)CrossRef

32.

S. Gittings, N. Turnbull, B. Henry, C.J. Roberts, P. Gershkovich, Characterisation of human saliva as a platform for oral dissolution medium development. Eur. J. Pharm. Biopharm. 91, 16–24 (2015)CrossRefPubMed

33.

K. Takamura, H. Fischer, N.R. Morrow, Physical properties of aqueous glycerol solutions. J. Petrol. Sci. Eng. 98–99, 56–60 (2012)

34.

C. Qi, H. Chen, Y. Sun, Q. Fu, L. Shen, X. Li, Y. Liu, Facile synthesis and anti-icing performance of superhydrophobic flower-like OTS-SiO2 with tunable size. Adv. Powder Technol. 31(11), 4533–4540 (2020)CrossRef

35.

D. Nanda, P. Varshney, M. Satapathy, S.S. Mohapatra, A. Kumar, Self-assembled monolayer of functionalized silica microparticles for self-cleaning applications. Colloids Surf A Physicochem Eng Asp 529, 231–238 (2017)CrossRef

36.

T.V. Duncan, Release of engineered nanomaterials from polymer nanocomposites: the effect of matrix degradation. ACS Appl. Mater. Interfaces 7(1), 20–39 (2015)CrossRefPubMed

37.

I.S. Bayer, A.J. Davis, E. Loth, A. Steele, Water jet resistant superhydrophobic carbonaceous films by flame synthesis and tribocharging. Mater. Today Commun. 3, 57–68 (2015)CrossRef

38.

V.A. Ganesh, H.K. Raut, A.S. Nair, S. Ramakrishna, A review on self-cleaning coatings. J. Mater. Chem. 21(41), 16304–16322 (2011)CrossRef

Title: Towards the Development of One-Step Scalable Self-Cleaning and Stain-Resistant Coating on Cellulosic Wood
Authors: Rashi Gururani
Sapan Kumar Pandit
Preeti Kumari
Aditya Kumar
Publication date: 15-04-2024
Publisher: The Korean Fiber Society
Published in: Fibers and Polymers / Issue 5/2024
Print ISSN: 1229-9197
Electronic ISSN: 1875-0052
DOI: https://doi.org/10.1007/s12221-024-00556-x

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