Multifunctional Bagasse Foam with Improved Thermal Insulation and Flame Retardancy by a Borax-Induced Self-Assembly and Ambient Pressure Drying Technique
Author:
Affiliation:
1. The State Key Laboratory of Refractories and Metallurgy, Wuhan University of Science and Technology, Wuhan 430081, China
2. College of Engineering, Mathematics and Physical Sciences, University of Exeter, Exeter EX4 4QF, U.K.
Funder
Outstanding Young and Middle-aged Scientific Innovation Team of Colleges and Universities of Hubei Province
National Natural Science Foundation of China
Publisher
American Chemical Society (ACS)
Link
https://pubs.acs.org/doi/pdf/10.1021/acsami.4c01685
Reference49 articles.
1. Water-Induced Self-Assembly and In Situ Mineralization within Plant Phenolic Glycol-Gel toward Ultrastrong and Multifunctional Thermal Insulating Aerogels
2. Nanostructurally Controllable Strong Wood Aerogel toward Efficient Thermal Insulation
3. Anisotropic cellulose nanofiber/chitosan aerogel with thermal management and oil absorption properties
4. A pulp foam with highly improved physical strength, fire-resistance and antibiosis by incorporation of chitosan and CPAM
5. Improved thermal insulation and compressive property of bimodal poly (lactic acid)/cellulose nanocomposite foams
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1. A flexible, thermal-insulating, and fire‐resistant bagasse-derived cellulose aerogel prepared via a refrigerator freezing combined ambient pressure drying technique;Chemical Engineering Journal;2024-10
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