Fabricating ultra-robust hydrogels with adhesive properties by restraining crack propagation with bamboo cellulose-based carbon nanomaterials
Xin Duan Guanben Du Long Yang Huanxin Huo Hongshan Li Yihong Gao Haoran Shi Feng Kuang Yumeng Chen Jianyong Wan Jingjie Shen
Fabricating ultra-robust hydrogels with adhesive properties by restraining crack propagation with bamboo cellulose-based carbon nanomaterials
Fabricating ultra-robust hydrogels with adhesive properties by restraining crack propagation with bamboo cellulose-based carbon nanomaterials
摘要
关键词
Bamboo fiber/Carbonization/Fatigue-resistant/Ultra-robust hydrogel/Mechanical resilience/Energy dissipationKey words
Bamboo fiber/Carbonization/Fatigue-resistant/Ultra-robust hydrogel/Mechanical resilience/Energy dissipation引用本文复制引用
Xin Duan,Guanben Du,Long Yang,Huanxin Huo,Hongshan Li,Yihong Gao,Haoran Shi,Feng Kuang,Yumeng Chen,Jianyong Wan,Jingjie Shen..Fabricating ultra-robust hydrogels with adhesive properties by restraining crack propagation with bamboo cellulose-based carbon nanomaterials[J].生物质资源与工程(英文),2025,10(3):360-372,13.基金项目
This work was financially supported by Applied Basic Research Program of Yunnan Province(No.202301AS070041),Na-tional Natural Science Foundation of China(No.32171884),and the Major Science and Technology Project of Yunnan Province(202402AE090027).Long Yang acknowledges Candidates of the Young and Middle-Aged Academic Leaders of Yunnan Province(No.202105AC160048)and the Ten Thousand Talent Program for Young Topnotch Talents of Yunnan Province(No.YNWR-QNBJ-2020-136).Guanben Du acknowledges the Yunnan Provincial Academician Workstation(No.YSZJGZZ-2020052)and the 111 Project(No.D21027).Jianyong Wan acknowledged the supported by the Scientific Research Fund project of Education Department of Yunnan Province(No.2025J0626). (No.202301AS070041)
