Cell Wall Modification Based on Combination Reagents to Improve Dimensional Stability of Wood with High Efficiency

试剂 理论(学习稳定性) 化学 生化工程 计算机科学 有机化学 工程类 机器学习
作者
Yuhan Qiu,Chuanshuang Hu,Jiewen Li,Qin Lai,Ziling Liu,Xiuyi Lin,Weiwei Zhang
出处
期刊:Journal of Agricultural and Food Chemistry [American Chemical Society]
卷期号:72 (26): 14601-14609 被引量:1
标识
DOI:10.1021/acs.jafc.4c02876
摘要

Although γ-methacryloxypropyltrimethoxysilane (MPS) was proved to be an effective reagent for improving the dimensional stability of wood, a bottleneck in ASE value (around 50%) existed. The reason was that MPS with low polarity opened few hydrogen bonds in the amorphous region of cellulose, while these hydrogen bonds could be reopened by water. Therefore, citric acid (CA) is chosen to cooperate with MPS to further enhance the dimensional stability of wood. In this paper, MPS and CA were used to modify wood individually (MW and CW) or with different combinations, that is, one-step modification (M/CW) and two-step modification with MPS first (M-CW) or CA first (C-MW). CA and MPS concentrations were optimized at 5 wt%. The ASE value for M/CW was only 25.74% at a weight percent gain (WPG) of 6.43%, which was only 0.6 times to MW or 0.7 times to CW. For M-CW, the ASE value gradually decreased with the soaking cycles, from 65.64% at a WPG of 9.05% to 51.20%. The C-MW had the best dimensional stability, with the ASE value 75.35% at a WPG of 11.50%. Although it decreased during the first soaking cycle, it stabilized at 62.20% at last. SEM and EDS images showed that the polymer mainly distributed in cell walls and few in cell lumen in C-MW. Thus, the enhanced dimensional stability of C-MW could be explained by CA opening the hydrogen bonds in the amorphous region of cellulose first, which provided more binding sites for MPS.
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