Transparent bamboo as a replacement for glass: Effects of lignin decolorisation methods on weatherability

Transparent bamboo proved to be a promising substitute for glass due to its high light transmittance and excellent mechanical properties. Nevertheless, it was susceptible to outdoor weathering, which negatively affected its physical and mechanical properties. In this study, two decolorisation method...

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Veröffentlicht in:	International journal of biological macromolecules 2024-10, Vol.277 (Pt 3), p.134470, Article 134470
Hauptverfasser:	Kong, Lingfeng, Lu, Rouyi, Wang, Yujiao, Ran, Yangyang, Jv, Jiaxuan, Sui, Wanting, Peng, Yao
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Sprache:	eng
Schlagworte:	Decolorisation methods Transparent bamboo Weathering resistance
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container_title	International journal of biological macromolecules
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creator	Kong, Lingfeng Lu, Rouyi Wang, Yujiao Ran, Yangyang Jv, Jiaxuan Sui, Wanting Peng, Yao
description	Transparent bamboo proved to be a promising substitute for glass due to its high light transmittance and excellent mechanical properties. Nevertheless, it was susceptible to outdoor weathering, which negatively affected its physical and mechanical properties. In this study, two decolorisation methods, namely the delignification method and the lignin modification method, were used to produce transparent bamboos with epoxy resin, referred to as DL-TB and LM-TB, respectively. The changes in surface color, optical and mechanical properties, wettability, thermal stability, and thermal insulation properties of transparent bamboo during accelerated UV weathering were evaluated. Additionally, the deterioration mechanism of DL-TB and LM-TB was investigated. The findings revealed that DL-TB demonstrated better transparency and mechanical properties than LM-TB, although it exhibited lower thermal insulation properties. Furthermore, DL-TB demonstrated enhanced color stability and higher hydrophobicity on weathered surfaces than LM-TB. Unexpectedly, the tensile properties of both two transparent bamboos significantly improved after weathering, especially for LM-TB, which was due to the EP post-curing and the formation of more hydrogen bonds between lignin and EP. These observations revealed that lignin played a key role in the photodegradation process of transparent bamboo, but further attempts should be made in future studies to improve its color stability. [Display omitted] •Transparent bamboo was prepared through two decolorisation methods.•The weatherability of transparent bamboo during weathering was studied.•Transparent bamboo without less lignin showed better color stability.•Lignin in transparent bamboo was beneficial for thermal and mechanical properties.
doi_str_mv	10.1016/j.ijbiomac.2024.134470
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Nevertheless, it was susceptible to outdoor weathering, which negatively affected its physical and mechanical properties. In this study, two decolorisation methods, namely the delignification method and the lignin modification method, were used to produce transparent bamboos with epoxy resin, referred to as DL-TB and LM-TB, respectively. The changes in surface color, optical and mechanical properties, wettability, thermal stability, and thermal insulation properties of transparent bamboo during accelerated UV weathering were evaluated. Additionally, the deterioration mechanism of DL-TB and LM-TB was investigated. The findings revealed that DL-TB demonstrated better transparency and mechanical properties than LM-TB, although it exhibited lower thermal insulation properties. Furthermore, DL-TB demonstrated enhanced color stability and higher hydrophobicity on weathered surfaces than LM-TB. Unexpectedly, the tensile properties of both two transparent bamboos significantly improved after weathering, especially for LM-TB, which was due to the EP post-curing and the formation of more hydrogen bonds between lignin and EP. These observations revealed that lignin played a key role in the photodegradation process of transparent bamboo, but further attempts should be made in future studies to improve its color stability. [Display omitted] •Transparent bamboo was prepared through two decolorisation methods.•The weatherability of transparent bamboo during weathering was studied.•Transparent bamboo without less lignin showed better color stability.•Lignin in transparent bamboo was beneficial for thermal and mechanical properties.</description><identifier>ISSN: 0141-8130</identifier><identifier>ISSN: 1879-0003</identifier><identifier>EISSN: 1879-0003</identifier><identifier>DOI: 10.1016/j.ijbiomac.2024.134470</identifier><identifier>PMID: 39102914</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Decolorisation methods ; Transparent bamboo ; Weathering resistance</subject><ispartof>International journal of biological macromolecules, 2024-10, Vol.277 (Pt 3), p.134470, Article 134470</ispartof><rights>2024 Elsevier B.V.</rights><rights>Copyright © 2024 Elsevier B.V. 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Nevertheless, it was susceptible to outdoor weathering, which negatively affected its physical and mechanical properties. In this study, two decolorisation methods, namely the delignification method and the lignin modification method, were used to produce transparent bamboos with epoxy resin, referred to as DL-TB and LM-TB, respectively. The changes in surface color, optical and mechanical properties, wettability, thermal stability, and thermal insulation properties of transparent bamboo during accelerated UV weathering were evaluated. Additionally, the deterioration mechanism of DL-TB and LM-TB was investigated. The findings revealed that DL-TB demonstrated better transparency and mechanical properties than LM-TB, although it exhibited lower thermal insulation properties. Furthermore, DL-TB demonstrated enhanced color stability and higher hydrophobicity on weathered surfaces than LM-TB. Unexpectedly, the tensile properties of both two transparent bamboos significantly improved after weathering, especially for LM-TB, which was due to the EP post-curing and the formation of more hydrogen bonds between lignin and EP. These observations revealed that lignin played a key role in the photodegradation process of transparent bamboo, but further attempts should be made in future studies to improve its color stability. 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Nevertheless, it was susceptible to outdoor weathering, which negatively affected its physical and mechanical properties. In this study, two decolorisation methods, namely the delignification method and the lignin modification method, were used to produce transparent bamboos with epoxy resin, referred to as DL-TB and LM-TB, respectively. The changes in surface color, optical and mechanical properties, wettability, thermal stability, and thermal insulation properties of transparent bamboo during accelerated UV weathering were evaluated. Additionally, the deterioration mechanism of DL-TB and LM-TB was investigated. The findings revealed that DL-TB demonstrated better transparency and mechanical properties than LM-TB, although it exhibited lower thermal insulation properties. Furthermore, DL-TB demonstrated enhanced color stability and higher hydrophobicity on weathered surfaces than LM-TB. Unexpectedly, the tensile properties of both two transparent bamboos significantly improved after weathering, especially for LM-TB, which was due to the EP post-curing and the formation of more hydrogen bonds between lignin and EP. These observations revealed that lignin played a key role in the photodegradation process of transparent bamboo, but further attempts should be made in future studies to improve its color stability. [Display omitted] •Transparent bamboo was prepared through two decolorisation methods.•The weatherability of transparent bamboo during weathering was studied.•Transparent bamboo without less lignin showed better color stability.•Lignin in transparent bamboo was beneficial for thermal and mechanical properties.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>39102914</pmid><doi>10.1016/j.ijbiomac.2024.134470</doi></addata></record>
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subjects	Decolorisation methods Transparent bamboo Weathering resistance
title	Transparent bamboo as a replacement for glass: Effects of lignin decolorisation methods on weatherability
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