Ultrastrong MXene film induced by sequential bridging with liquid metal
University of Science and Technology of China · Beihang University · +3 more institutions
Abstract
) MXene nanosheets into macroscopic films presents challenges, including voids, low orientation degree, and weak interfacial interactions, which reduce mechanical performance. We demonstrate an ultrastrong macroscopic MXene film using liquid metal (LM) and bacterial cellulose (BC) to sequentially bridge MXene nanosheets (an LBM film), achieving a tensile strength of 908.4 megapascals. A layer-by-layer approach using repeated cycles of blade coating improves the orientation degree to 0.935 in the LBM film, while a LM with good deformability reduces voids into porosity of 5.4%. The interfacial interactions are enhanced by the hydrogen bonding from BC and the coordination bonding with LM, which improves the…
Citation impact
- FWCI
- 22.57
- Percentile
- 100%
- References
- 96
Authors
11- WLWei LiCorresponding
University of Science and Technology of China, Beihang University
- TZTianzhu ZhouCorresponding
Nanyang Technological University
- ZZZejun ZhangCorresponding
University of Science and Technology of China, Beihang University
- LLLei LiCorresponding
University of Science and Technology of China, Beihang University
- WLWangwei Lian
University of Science and Technology of China, Beihang University
Topics & keywords
- Materials science
- Bridging (networking)
- Porosity
- Composite material
- Ultimate tensile strength
- Coating
- Layer (electronics)
- Metal