1. Biomimetic lignin-protein adhesive with dynamic covalent/hydrogen hybrid networks enables high bonding performance and wood-based panel recycling.
- Author
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Liu, Zheng, Liu, Tao, Jiang, Huguo, Zhang, Xin, Li, Jianzhang, Shi, Sheldon Q., and Gao, Qiang
- Subjects
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LIGNINS , *ADHESIVES , *SOY proteins , *FIREPROOFING , *AMINO group , *COVALENT bonds , *LIGNIN structure - Abstract
Exploring the reusability of wood-based panels is imperative in the wood industry for sustainable development and carbon balance. Non-reusable adhesives make wood-based panel recycling difficult. In this study, inspired by the adhesion and de-adhesion behavior of snail slime, we built dynamic covalent/hydrogen hybrid networks into adhesive system for achieving both high bonding performance and reusability. Specifically, the softwood lignin was purified and pretreated by ultrasonication to form a catechol structure (UAL) and then combined with soybean protein to develop a 100 % bio-based wood adhesive. The catechol structure of UAL formed dynamic covalent bonds (C N) with the amino groups of the protein to improve the water resistance and formed multiple hydrogen bonds as a sacrificial network to improve the toughness of the adhesive. Thus, the wet shear strength of plywood bonded by the resultant adhesive improved by 101.4 % to 1.37 MPa. The adhesive also exhibited flame retardancy (LOI = 37.7 %), mildew resistance (60 h), and antibacterial performance (inhibition zone = 8 mm). Notably, owing to the rearrangement of dynamic covalent/hydrogen hybrid networks and the thermoplastic property of UAL, the resultant adhesive was reusable (3 cycles) and degradable (2 months), which provides a potential method for the reuse of wood-based panels. • Ultrasonic treats lignin to form catechol structure (UAL) and combine with SPI to obtain adhesive. • Dynamic covalent/hydrogen hybrid networks were constructed in adhesive system. • The SPI/UAL adhesive has good coating, prepressing intension, and bonding performance. • The SPI/UAL adhesive exhibited good antibacterial, flame-retardant, and mildew resistance. • The resultant wood-based panel was reusable and biodegradable. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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