In-situ cinnamaldehyde modification confers bamboo long-acting mold resistance and its reaction mechanisms

Fan, Zhiwei; Zhang, Huili; Peng, Dandan; Wang, Hui; Han, Shuaibo; Zhang, Yan; Wu, Xinxing; Sun, Fangli

doi:10.1016/j.indcrop.2022.116059

Cited by 9 publications

(1 citation statement)

References 36 publications

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“…The results showed that the resistance rate of modified bamboo to common mold could reach 100%. Similarly, Fan et al introduced cinnamaldehyde into bamboo by in situ Mannich reaction, which improved the surface hydrophobicity of bamboo and effectively resisted the erosion of mold [52]. Sun et al employed N-methylol acrylamide (NMA), a cross-linking monomer with dual functional groups, for the modification of bamboo to enhance its resistance to mold.…”

Section: Chemical Modificationmentioning

confidence: 99%

Modification and Application of Bamboo-Based Materials: A Review—Part I: Modification Methods and Mechanisms

Zheng,

Yan,

Lou

et al. 2023

Forests

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In light of continual societal advancement and escalating energy consumption, the pursuit of green, low-carbon, and environmentally friendly technologies has become pivotal. Bamboo, renowned for its diverse advantages encompassing swift growth, ecological compatibility, robust regenerative properties, commendable mechanical characteristics, heightened hardness, and abundant availability, has discovered applications across various domains, including furniture and construction. Nevertheless, natural bamboo materials are plagued by inherent limitations, prominently featuring suboptimal hydrophobicity and vulnerability to fracture, thereby constraining their broad-scale application. Thus, the paramount concern is to enhance the performance of bamboo materials through modification. However, prevailing reviews of bamboo modification predominantly concentrate on physical or chemical approaches, resulting in a conspicuous absence of a comprehensive overview of bamboo modification techniques. This review explores an array of bamboo treatment modalities and delivers a valuable assessment of bamboo modification, offering significant guidance for forthcoming bamboo enhancement and utilization endeavors.

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Section: Chemical Modificationmentioning

confidence: 99%

Modification and Application of Bamboo-Based Materials: A Review—Part I: Modification Methods and Mechanisms

Zheng,

Yan,

Lou

et al. 2023

Forests

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Efficiently Catalyzing Xylose to Furfural by Synthesizing Solid Acid Catalysts from Lignocellulosic Residues

Tang,

Qian,

Wang

et al. 2024

ChemistrySelect

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The utilization of biomass as a carbon source for the synthesis of renewable solid acid catalysts (SA) has emerged as a prominent research direction in the field of heterogeneous catalysis. Based on the challenges associated with reusing residues from lignocellulosic biorefining, the biomass‐based SA (BCSA) were prepared using poplar sawdust (PS), hydrothermally pretreated PS (PPS), and the residue of PPS's enzymatic hydrolysis (ER). The characterization revealed that all three types of BCSA were loaded with catalytic groups, and the BCSA synthesized using ER rich in lignin components exhibited a highly efficient catalytic structure. Furthermore, the catalysis of a 20 g/L xylose solution with BCSA‐ER as SA also achieved the highest furfural yield (89.3%) and furfural selectivity (90.3%). The findings of this study suggested that lignin holds significant potential as a carbon carrier for SA, thereby offering a viable solution for utilizing by‐products from lignocellulosic biorefining.

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Laccase-catalyzed octadecylamine modification enables green and stable hydrophobization of bamboo

Chen,

Fan,

Huang

et al. 2024

Wood Sci Technol

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In-situ cinnamaldehyde modification confers bamboo long-acting mold resistance and its reaction mechanisms

Cited by 9 publications

References 36 publications

Modification and Application of Bamboo-Based Materials: A Review—Part I: Modification Methods and Mechanisms

Modification and Application of Bamboo-Based Materials: A Review—Part I: Modification Methods and Mechanisms

Efficiently Catalyzing Xylose to Furfural by Synthesizing Solid Acid Catalysts from Lignocellulosic Residues

Laccase-catalyzed octadecylamine modification enables green and stable hydrophobization of bamboo

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