| [1] |
United Nations Environment Assembly. 2022. End plastic pollution: towards an international legally binding instrument. Draft resolution. UNEP/EA. 5/Res. 14. United Nations Environment Assembly, Nairobi, Kenya. https://digitallibrary.un.org/record/3999257?ln=zh_CN&v=pdf |
| [2] |
Li ZY, Trinh TL, Li N, Wu JQ, Feng YP, et al. 2020. Main bamboo species and their utilization in Asia countries. World Bamboo and Rattan 18(4):1−7 (in Chinese) |
| [3] |
Yin JP, Tang ZQ, Zhu RX, Yu WJ. 2024. Study on the present situation and changing trend of global bamboo resources. |
| [4] |
Cardarelli F. 2018. Materials Handbook. London: Springer. doi: 10.1007/978-3-319-38925-7 |
| [5] |
Li Z, Chen C, Mi R, Gan W, Dai J, et al. 2020. A strong, tough, and scalable structural material from fast-growing bamboo. |
| [6] |
Borowski PF, Patuk I, Bandala ER, Borowski PF, Patuk I, et al. 2022. Innovative industrial use of bamboo as key "green" material. |
| [7] |
Zhao H, Wang J, Meng Y, Li Z, Fei B, et al. 2022. Bamboo and rattan: nature-based solutions for sustainable development. |
| [8] |
Miller SA. 2022. The capabilities and deficiencies of life cycle assessment to address the plastic problem. |
| [9] |
Zheng J, Suh S. 2019. Strategies to reduce the global carbon footprint of plastics. |
| [10] |
Sawarkar AD, Shrimankar DD, Manekar SC, Kumar M, Garlapati PK, et al. 2025. Bamboo as a sustainable crop for land restoration in India: challenges and opportunities. |
| [11] |
Tardio G, Mickovski SB, Stokes A, Devkota S. 2017. Bamboo structures as a resilient erosion control measure. |
| [12] |
Li Z, Chen C, Xie H, Yao Y, Zhang X, et al. 2022. Sustainable high-strength macrofibres extracted from natural bamboo. |
| [13] |
Guo D, Ren W, Yao S, Li J, Yu Y, et al. 2024. Conversion of bamboo into strong, waterproof, and biodegradable thermosetting plastic through cell wall structure directed manipulation. |