As 5G/6G communications, aerospace systems, and high-frequency electronics advance, the demand for lightweight, wave-transparent, and thermally conductive materials has become increasingly urgent. Now, researchers from the Shaanxi Key Laboratory of Macromolecular Science and Technology at Northwestern Polytechnical University, led by Professor Junliang Zhang and Professor Junwei Gu, have developed a groundbreaking down–top strategy to fabricate fluorographene/poly(p-phenylene benzobisoxazole) nanofiber (FG/PNF) composite papers with exceptional wave-transparent performance, thermal conductivity, and mechanical strength. This work offers a scalable and cost-effective solution for next-generation electromagnetic and thermal management applications.
Why FG/PNF Composite Papers Matter
Innovative Design and Features
Applications and Future Outlook
This comprehensive study provides a scalable roadmap for developing advanced nanocomposite papers that integrate electromagnetic transparency, thermal management, and mechanical robustness—a crucial step toward smarter, faster, and more reliable communication and sensing systems. Stay tuned for more innovations from Professor Junliang Zhang and Junwei Gu’s team at Northwestern Polytechnical University!
Nano-Micro Letters
Experimental study
Down‑Top Strategy Engineered Large‑Scale Fluorographene/PBO Nanofibers Composite Papers with Excellent Wave‑Transparent Performance and Thermal Conductivity
20-Aug-2025