Wood dimensional stability enhancement by multivalent metal-cation-induced lignocellulosic microfibrils crosslinking
Wood is a hygroscopic material that responds to the moisture changes of the surrounding environment through swelling and shrinkage, making it dimensionally unstable. Here, we introduce a facile metal-ion-modification (MIM) approach to enhance the dimensional stability of wood. The MIM process involv...
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| Published in: | International journal of biological macromolecules Vol. 269; p. 131877 |
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| Abstract | Wood is a hygroscopic material that responds to the moisture changes of the surrounding environment through swelling and shrinkage, making it dimensionally unstable. Here, we introduce a facile metal-ion-modification (MIM) approach to enhance the dimensional stability of wood. The MIM process involved swelling the wood samples with aqueous metal ion solutions and drying. The high valent metal cations, such as Fe3+, Al3+, and Zr4+, interacted with the hydrophilic groups (e.g., OH, COOH) present in the wood fibers, limiting their access to water and moisture, thereby enhancing the wood's hydrophobicity and dimensional stability. Evaluation of three wood species, southern yellow pine, poplar, and red oak, revealed water contact angles of 120–130° after MIM, indicative of enhanced surface hydrophobicity. Fe3+ treatment decreased southern yellow pine's swelling ratio from 6 % to 4 %. Fe3+-treated wood exhibited tangential anti-swelling efficiencies ranging from 39.83 % to 57.14 % and radial anti-swelling efficiencies from 34.74 % to 48.33 %, varying across wood species. The enhancement of wood dimensional stability can be attributed to the formation of irreversible coordination bonds between metal cations and lignocellulosic microfibrils in the wood cell wall. These bonds prevent the microfibrils from slipping in response to moisture absorption and desorption. |
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| AbstractList | Wood is a hygroscopic material that responds to the moisture changes of the surrounding environment through swelling and shrinkage, making it dimensionally unstable. Here, we introduce a facile metal-ion-modification (MIM) approach to enhance the dimensional stability of wood. The MIM process involved swelling the wood samples with aqueous metal ion solutions and drying. The high valent metal cations, such as Fe3+, Al3+, and Zr4+, interacted with the hydrophilic groups (e.g., OH, COOH) present in the wood fibers, limiting their access to water and moisture, thereby enhancing the wood's hydrophobicity and dimensional stability. Evaluation of three wood species, southern yellow pine, poplar, and red oak, revealed water contact angles of 120–130° after MIM, indicative of enhanced surface hydrophobicity. Fe3+ treatment decreased southern yellow pine's swelling ratio from 6 % to 4 %. Fe3+-treated wood exhibited tangential anti-swelling efficiencies ranging from 39.83 % to 57.14 % and radial anti-swelling efficiencies from 34.74 % to 48.33 %, varying across wood species. The enhancement of wood dimensional stability can be attributed to the formation of irreversible coordination bonds between metal cations and lignocellulosic microfibrils in the wood cell wall. These bonds prevent the microfibrils from slipping in response to moisture absorption and desorption. Wood is a hygroscopic material that responds to the moisture changes of the surrounding environment through swelling and shrinkage, making it dimensionally unstable. Here, we introduce a facile metal-ion-modification (MIM) approach to enhance the dimensional stability of wood. The MIM process involved swelling the wood samples with aqueous metal ion solutions and drying. The high valent metal cations, such as Fe , Al , and Zr , interacted with the hydrophilic groups (e.g., OH, COOH) present in the wood fibers, limiting their access to water and moisture, thereby enhancing the wood's hydrophobicity and dimensional stability. Evaluation of three wood species, southern yellow pine, poplar, and red oak, revealed water contact angles of 120-130° after MIM, indicative of enhanced surface hydrophobicity. Fe treatment decreased southern yellow pine's swelling ratio from 6 % to 4 %. Fe -treated wood exhibited tangential anti-swelling efficiencies ranging from 39.83 % to 57.14 % and radial anti-swelling efficiencies from 34.74 % to 48.33 %, varying across wood species. The enhancement of wood dimensional stability can be attributed to the formation of irreversible coordination bonds between metal cations and lignocellulosic microfibrils in the wood cell wall. These bonds prevent the microfibrils from slipping in response to moisture absorption and desorption. |
| ArticleNumber | 131877 |
| Author | Leng, Weiqi Nayanathara, R.M. Oshani Street, Jason Zhang, Xuefeng |
| Author_xml | – sequence: 1 givenname: R.M. Oshani surname: Nayanathara fullname: Nayanathara, R.M. Oshani organization: Department of Sustainable Bioproducts, Mississippi State University, MS 39762, United States – sequence: 2 givenname: Weiqi surname: Leng fullname: Leng, Weiqi email: wleng@njfu.edu.cn organization: Jiangsu Co-Innovation Center of Efficient Processing and Utilization of Forest Resources, Nanjing Forestry University, Nanjing 210037, China – sequence: 3 givenname: Jason surname: Street fullname: Street, Jason organization: Department of Sustainable Bioproducts, Mississippi State University, MS 39762, United States – sequence: 4 givenname: Xuefeng surname: Zhang fullname: Zhang, Xuefeng email: njfuxf@gmail.com organization: Department of Sustainable Bioproducts, Mississippi State University, MS 39762, United States |
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| Cites_doi | 10.1016/j.carbpol.2003.12.001 10.1515/hf-2015-0239 10.4067/S0718-221X2023000100423 10.1007/s40725-015-0017-5 10.3390/coatings9100656 10.1002/admi.202001166 10.15376/biores.12.2.3277-3288 10.1007/s00107-015-0998-6 10.1016/j.carpta.2023.100377 10.1186/s10086-019-1817-1 10.1080/00914039608029385 10.4067/S0718-221X2014005000023 10.1016/j.enbuild.2022.112768 10.1016/j.jafr.2023.100552 10.3389/fpls.2021.696747 10.1016/j.cej.2023.141596 10.1186/s10086-023-02079-0 |
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| Keywords | Dimensional stability Metal ion modification Wood hydrophobization |
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