Journal
ADVANCED COMPOSITES AND HYBRID MATERIALS
Volume 4, Issue 4, Pages 1059-1069Publisher
SPRINGERNATURE
DOI: 10.1007/s42114-021-00316-y
Keywords
Bamboo; Hydrothermal pretreatment; Modification; Thermoplasticity transformation
Funding
- National Natural Science Foundation of China [31760195, 31971741]
- Science and Technology Research Program of Yunnan Province [2018FB066]
- Specific Research Project of Guangxi for Research Bases and Talents [AD18126005]
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A two-step strategy of hydrothermal pretreatment and propargyl modification was developed to improve the thermoplasticity of bamboo powder. The increase in propargyl concentration enhances thermal stability and molecular mobility in the modified samples, suggesting an efficacious way to improve thermoplasticity. This approach could broaden the application of building a clickable alkyne platform in bamboo-based materials to obtain multifunctional materials.
A two-step strategy to improve the thermoplasticity of bamboo powder (BP) by the combination of hydrothermal pretreatment (BP-LHW) and propargyl modification (BP-PB/BP-LHW-PB) in a heterogeneous system was developed in this research. It was observed that the hydrothermal pretreatment has a positive impact on the alkyne-functionalized BP-LHW, resulting in substantial change including the etherification of BP-LHW with propargyl bromide, breaking of crystalline phase of the cellulose fraction. Besides, the modified sample is significantly changed in the apparent morphology and reduced in the thermal stability and glass transition temperature (T-g). The T-g is attributed to the increase of free volume due to the increase of propargyl concentration in the modified samples. These results revealed that the combination of propargyl group into pretreated BP is an efficacious way to ameliorate the thermoplasticity. Notably, the thermoplasticity of BP-LHW-PB with high concentration of propargyl is significantly enhanced compared to BP-PB, which is owed to the enhanced molecular mobility resulting from the reduced interaction forces between the cellulose molecular. Herein, the application way that the building a clickable alkyne platform in BP to obtain multifunctional materials will be broadened in bamboo-based materials.
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