Strong, Hydrostable, and Degradable Straws Based on Cellulose-Lignin Reinforced Composites
XZ Wang and QQ Xia and SS Jing and C Li and QY Chen and B Chen and ZQ Pang and B Jiang and WT Gan and G Chen and MJ Cui and LB Hu and T Li, SMALL, 17, 2008011 (2021).
DOI: 10.1002/smll.202008011
The huge consumption of single-use plastic straws has brought a long- lasting environmental problem. Paper straws, the current replacement for plastic straws, suffer from drawbacks, such as a high cost of the water- proof wax layer and poor water stability due to the easy delamination of the wax layer. It is therefore crucial to find a high-performing alternative to mitigate the environmental problems brought by plastic straws. In this paper, all natural, degradable, cellulose-lignin reinforced composite straws, inspired by the reinforcement principle of cellulose and lignin in natural wood are developed. The cellulose-lignin reinforced composite straw is fabricated by rolling up a wet film made of homogeneously mixed cellulose microfibers, cellulose nanofibers, and lignin powders, which is then baked in oven at 150 degrees C. When baked, lignin melts and infiltrates the micro-nanocellulose network, acting as a polyphenolic binder to improve the mechanical strength and hydrophobicity performance of the resulting straw. The obtained straws demonstrate several advantageous properties over paper straws, including 1) excellent mechanical performance, 2) high hydrostability, and 3) low cost. Moreover, the natural degradability of the cellulose-lignin reinforced composite straws makes them promising candidates to replace plastic straws and suggests possible substitutes for other petroleum- based plastics.
Return to Publications page