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03-08-2022

The construction of hybrid wettability surface of bamboo based on parenchyma and sclerenchyma cells difference

Authors: Linlin Xu, Haiyang Zhang, Fucheng Xu, Chaowei Zheng

Published in: Journal of Coatings Technology and Research | Issue 6/2022

Abstract

Zinc oxide (ZnO) nanoparticles were deposited on the longitudinal surface of bamboo by a hydrothermal method. Based on the cell discrepancy of parenchyma and sclerenchyma, ZnO was selectively built on the surface of bamboo to prepare a hydrophilic–hydrophobic wettability surface. The results revealed that ZnO nanoparticles were successfully cultivated on the surface of bamboo, and the distribution of ZnO was definitely denser in the bamboo parenchyma cell region with nanocrystal differences. The contact angles of the parenchyma and fiber regions of modified bamboo were 109.6±4.5° and 43.3±6.0°, respectively. In addition, SiO₂-loaded ZnO bamboo was obtained by dipping in silica solution. Surface element analysis demonstrated that the solution could selectively wet the bamboo hydrophilic fiber region. In addition, octadecyltrichlorosilane was used to modify ZnO bamboo by spraying with an air brush. Droplet slide experiments indicated that the functional surface could control the movement of water droplets.

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Wen, C, Guo, H, Bai, H, Xu, T, Liu, M, Yang, J, Zhu, Y, Zhao, Q, Zhang, J, Cao, M, Zhang, L, “Beetle-Inspired Hierarchical Antibacterial Interface for Reliable Fog Harvesting.” ACS Appl. Mater. Interfaces, 11 34330–34337 (2019) CrossRef

Wang, X, Zeng, J, Yu, X, Liang, C, Zhang, Y, “Water Harvesting Method via a Hybrid Superwettable Coating with Superhydrophobic and Superhydrophilic Nanoparticles.” Appl. Surf. Sci., 465 986–994 (2019) CrossRef

Zhang, S, Huang, J, Chen, Z, Lai, Y, “Bioinspired Special Wettability Surfaces: From Fundamental Research to Water Harvesting Applications.” Small, 13 1602992 (2017) CrossRef

Zhang, S, Condensation Performance of Super Wetting Material Surface and Its Application in Fog Water Collection. Soochow University, Suzhou (2019)

Seo, J, Lee, S, Lee, J, Lee, T, “Guided Transport of Water Droplets on Superhydrophobic-Hydrophilic Patterned Si Nanowires.” ACS Appl. Mater. Inter., 3 4722–4731 (2011) CrossRef

Li, Y, Li, J, Liu, L, Yan, Y, Zhang, Q, Zhang, N, He, L, Liu, Y, Zhang, X, Tian, D, Leng, J, Jiang, L, “Switchable Wettability and Adhesion of Micro/Nanostructured Elastomer Surface via Electric Field for Dynamic Liquid Droplet Manipulation.” Adv. Sci., 7 2000772 (2020) CrossRef

Feng, J, Zhong, L, Guo, Z, “Sprayed Hieratical Biomimetic Superhydrophilic-Superhydrophobic Surface for Efficient Fog Harvesting.” Chem. Eng., 388 124283 (2020) CrossRef

Chen, Y, Zheng, Y, “Bioinspired Micro-/Nanostructure Fibers with a Water Collecting Property.” Nanoscale, 6 7703 (2014) CrossRef

Zuo, Y, Zheng, L, Zhao, C, Liu, H, “Micro-/Nanostructured Interface for Liquid Manipulation and Its Applications.” Small, 16 1903849 (2020) CrossRef

10.

Park, S, Jung, S, Heo, J, Hong, J, “Facile Synthesis of Polysilsesquioxane Toward Durable Superhydrophilic/Superhydrophobic Coatings for Medical Devices.” J. Ind. Eng. Chem., 77 97–104 (2019) CrossRef

11.

Ueda, E, Feng, W, Levkin, PA, “Superhydrophilic–Superhydrophobic Patterned Surfaces as High-Density Cell Microarrays: Optimization of Reverse Transfection.” Adv. Healthcare Mater., 5 2646–2654 (2016) CrossRef

12.

Abbasi, F, Mirzadeh, H, Katbab, A-A, “Modification of Polysiloxane Polymers for Biomedical Applications: A Review.” Polym. Int., 50 1279–1287 (2001) CrossRef

13.

Zhai, L, Berg, MC, Cebeci, FC, Kim, Y, Milwid, JM, Rubner, MF, Cohen, R, “Patterned Superhydrophobic Surfaces: Toward a Synthetic Mimic of the Namib Desert Beetle.” Nano Lett., 6 1213–1217 (2006) CrossRef

14.

Kwak, MJ, Oh, MS, Yoo, Y, Yoo, JB, Kim, J, Yu, SJ, Im, SG, “Series of Liquid Separation System Made of Homogeneous Copolymer Films with Controlled Surface Wettability.” Chem. Mater., 27 3441–3449 (2015) CrossRef

15.

Xu, C, Feng, R, Song, F, Wang, X, Wang, Y, “Desert Beetle-Inspired Superhydrophilic/Superhydrophobic Patterned Cellulose Film with Efficient Water Collection and Antibacterial Performance.” ACS Sustain. Chem. Eng., 6 14679–14684 (2018) CrossRef

16.

Wang, Y, Tian, T, Cabane, E, “Wood Composites with Wettability Patterns Prepared by Controlled and Selective Chemical Modification of a Three-Dimensional Wood Scaffold.” ACS Sustain. Chem. Eng., 5 11686–11694 (2017) CrossRef

17.

Zhang, X, Preparation and Characterization of Bamboo Based Nanoscale Cellulose Aerogel Oil Absorbing Material. Chinese Academy of Forestry Sciences (2019)

18.

Sun, Q, Yang, Y, Dang, B, Chen, Y, Wang, Y, Zhang, J, Qiu, J, “Research Progress of the Preparation of Biomimetic Superhydrophobic Wood Surface Micro-nano Structures.” J. For. Eng., 6 1–11 (2021)

19.

Li, J, Sun, Q, Jin, C, Li, J, “Comprehensive Studies of the Hydrothermal Growth of ZnO Nanocrystals on the Surface of Bamboo.” Ceram. Int., 41 921–929 (2015) CrossRef

20.

Kong, L, Tu, K, Guan, H, Wang, X, “Growth of High-Density ZnO Nanorods on Wood with Enhanced Photostability, Flame Retardancy and Water Repellency.” Appl. Surf. Sci., 407 479–484 (2017) CrossRef

21.

Li, J, Wu, Z, Ren, D, Chen, Y, “Research Progress of Inorganic Nano Materials in Wood and Bamboo Anti Mildew and Anti-corrosion.” J. Bamboo, 38 16–23 (2019)

22.

Chen, L, Cao, S, Huang, L, Wu, H, Hu, H, Liu, K, Lin, S, “Development of Bamboo Cellulose Preparation and Its Functionalization.” J. For. Eng., 6 1–13 (2021)

23.

Jin, C, Li, J, Han, S, Wang, J, Sun, Q, “A Durable, Superhydrophobic, Superoleophobic and Corrosion-Resistant Coating with Rose-Like ZnO Nanoflowers on a Bamboo Surface.” Appl. Surf. Sci., 320 322–327 (2014) CrossRef

24.

Li, J, Sun, Q, Yao, Q, Wang, J, Han, S, Jin, C, “Fabrication of Robust Superhydrophobic Bamboo Based on ZnO Nanosheet Networks with Improved Water-, UV-, and Fire-Resistant Properties.” J. Nanomater., 2015 431426 (2015)

25.

Li, J, Wu, Z, Bao, Y, Chen, Y, Huang, C, Li, N, He, S, Chen, Z, “Wet Chemical Synthesis of ZnO Nanocoating on the Surface of Bamboo Timber with Improved Mould-Resistance.” J. Saudi Chem. Soc., 21 920–928 (2017) CrossRef

26.

Kumar, A, Nanda, D, “Methods and Fabrication Techniques of Superhydrophobic Surfaces.” Superhydrophobic Polym. Coat., 3 43–75 (2019) CrossRef

27.

Sun, Q, Lu, Y, Li, J, Cao, J, “Self-Assembly of a Superhydrophobic ZnO Nanorod Arrays Film on Wood Surface Using a Hydrothermal Method.” Key Eng. Mater., 3122 468–471 (2014) CrossRef

28.

Tan, Y, Wang, K, Dong, Y, Zhang, W, Zhang, S, Li, J, “Bulk Superhydrophobility of Wood via In-Situ Deposition of ZnO Rods in Wood Structure.” Surf. Coat. Technol., 383 125240 (2020) CrossRef

29.

Dong, Z, Ma, J, Jiang, L, “Manipulating and Dispensing Micro/Nanoliter Droplets by Superhydrophobic Needle Nozzles.” ACS Nano., 7 10371–10380 (2013) CrossRef

30.

Kerasidou, AP, Bardakas, A, Botzakaki, M, Georga, SN, Krontiras, CA, Mergia, K, Psycharis, VP, Tsamis, C, “Growth of ZnO Nanowires on Seeding Layers Deposited by ALD: The Influence of Process Parameters.” Microelectron. Eng., 217 111091 (2019) CrossRef

31.

Duo, S, Li, Y, Zhang, H, Liu, T, Wu, K, Li, Z, “A Facile Salicylic Acid Assisted Hydrothermal Synthesis of Different Flower-Like ZnO Hierarchical Architectures with Optical and Concentration-Dependent Photocatalytic Properties.” Mater. Charact., 114 185–196 (2016) CrossRef

32.

Xing, D, Zhang, Y, Hu, J, Yao, L, “Highly Hydrophobic and Self-Cleaning Heat-Treated Larix spp. Prepared by TiO ₂ and ZnO Particles onto Wood Surface.” Coatings, 10 986 (2020) CrossRef

33.

Jia, W, Preparation and Photoelectric Properties of Nanorod ZnO Self-assembled Structures. Taiyuan University of Technology, Taiyuan (2013)

34.

Singh, R, Dutta, S, “The Role of pH and Nitrate Concentration in the Wet Chemical Growth of Nano-Rods Shaped ZnO Photocatalyst.” Nano-Struct. Nano-Objects, 18 100250 (2019) CrossRef

35.

Sun, Q, Lu, Y, Zhang, H, Yang, D, Wang, Y, Xu, J, Tu, J, Liu, Y, Li, J, “Improved UV Resistance in Wood Through the Hydrothermal Growth of Highly Ordered ZnO Nanorod Arrays.” J. Mater. Sci., 47 4457–4462 (2012) CrossRef

Title: The construction of hybrid wettability surface of bamboo based on parenchyma and sclerenchyma cells difference
Authors: Linlin Xu
Haiyang Zhang
Fucheng Xu
Chaowei Zheng
Publication date: 03-08-2022
Publisher: Springer US
Published in: Journal of Coatings Technology and Research / Issue 6/2022
Print ISSN: 1547-0091
Electronic ISSN: 1935-3804
DOI: https://doi.org/10.1007/s11998-022-00657-3

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