Designing MOF-Cellulose Bio-Aerogels for Electromagnetic Management and Fire-Acoustic Safety
Beijing Institute of Technology · National Institute of Biological Sciences, Beijing · +5 more institutions
Abstract
Lightweight multifunctional aerogels hold great promise in applications, e.g., electromagnetic microwave absorption, thermal insulation, and acoustic damping. However, conventional aerogels often suffer from limited functionalities, complicated manufacturing, and poor sustainability. Metal-organic frameworks (MOFs), with tunable porosity and abundant active sites, offer a compelling route to high-performance multifunctional aerogels, but it has remained a grand challenge to develop sustainable multifunctional MOF-based aerogels. Here, we report a sustainable multifunctional bio-aerogel (Ni-CCA) by integrating hierarchical scale-like topological Ni-MOF-NH 2 with cellulose through simple pretreatment using deep…
Citation impact
- FWCI
- 91.11
- Percentile
- 100%
- References
- 57
Authors
12- JHJinHu HuCorresponding
Beijing Institute of Technology, National Institute of Biological Sciences, Beijing
- JYJierui Ye
Beijing Institute of Technology
- PJPooya Jafari
University of Southern Queensland
- BHBoyou Hou
University of Southern Queensland
- JLJinfeng Li
Wuhan University, Wuhan Business University, Hubei University
Topics & keywords
- Reflection loss
- Aerogel
- Porosity
- Microwave
- Thermal conductivity
- Thermal management of electronic devices and systems
- Eutectic system
- Absorption (acoustics)
Funding
- NNNational Natural Science Foundation of ChinaAward: No. 22375023
- NSNatural Science Foundation of Hebei ProvinceAward: E2024105006
- NSNatural Science Foundation of ChongqingAward: CSTB2024NSCQ-MSX0452
- NSNatural Science Foundation of Shandong ProvinceAward: ZR2024ME040
- ARAustralian Research CouncilAwards: No. DP240102628, IM250100102
- FRFundamental Research Funds for the Central UniversitiesAward: No. 2025CX11006