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Enhanced Electromagnetic Wave Absorption of Bacterial Cellulose / Reduced Graphene Oxide Aerogel by Eco-Friendly In-Situ Construction

  • Published:2024 Issue: Volume: Page:
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Author:

Zhang Yu,Wang Jun,Wu Qilei,Shan Ting,Bai Shengjie,Zhang Bin,Liu Yaqing,Su Xiaogan

Publisher

Elsevier BV

Reference50 articles.

1. Controllable Atomic Migration in Microstructures and Defects for Electromagnetic Wave Absorption Enhancement;X G Su;Advanced Functional Materials,2024

2. Graphene-Assisted Assembly of Electrically and Magnetically Conductive Ceramic Nanofibrous Aerogels Enable Multifunctionality;B Li;Advanced Functional Materials,2024

3. Dual Cross-Linked Magnetic MXene Aerogel with High Strength and Durability Enables Multifunctionality;J Qiao;Advanced Functional Materials,2024

4. One-Hour Ambient-Pressure-Dried, Scalable, Stretchable MXene/Polyurea Aerogel Enables Synergistic Defense Against High-Frequency Mechanical Shock and Electromagnetic Waves;S Zheng;Advanced Functional Materials,2024

5. Ultrasonic Field Induces Better Crystallinity and Abundant Defects at Grain Boundaries to Develop CuS Electromagnetic Wave Absorber;G Chen;Advanced Materials,2023
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