材料科学
纳米尺度
天然材料
原位
纳米技术
高分子科学
化学
有机化学
作者
Wei Li,Xue-Tao Xu,Dezhao Hao,Zhao Wang,Kang Yu,Jiankun Lai,Feilong Zhang,Lei Jiang,Shutao Wang
标识
DOI:10.1002/adma.202501520
摘要
Wooden artifacts have attracted comprehensive concern as the witnesses of human civilization; however, their conservation suffers from many difficulties, such as natural degradation and biological invasion. Silicified wood, as a fossil material that has existed for millions of years, provides a valuable clue for the long-term conservation of wooden materials. In this work, a superwetting-enabled in situ silicification strategy is reported to silicify wood in a confined way, fabricating artificial silicified wood within 100 h. The superwetting process of the silica sol enables multi-scale high silica filling throughout the entire wood from the nanoscale to the macroscale. The artificial silicified wood shows a high flexural strength of ≈216.49 MPa and super resistance against termites and fungi. The artificial silicified wood retains 98.70% of its mass against termites, and over 90.64% of its mass against fungi, meeting the safest level in the global standards. The finding provides a general silicification approach for wood-like materials with complex hierarchical structures and a promisingly alternative solution for the conservation of wooden artifacts.
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