In the era of advanced electronics and stealth technologies , the demand for materials that are not only ultrathin and lightweight but also exhibit exceptional functional integration is rising rapidly. Electromagnetic interference (EMI) shielding, thermal camouflage, and gas barrier capabilities are critical in various applications ranging from aerospace to wearable electronics. This research introduces an innovative approach in the design of Poly(ethylene furandicarboxylate) (PEF)-MXene/liquid metal (LM) composite films. By crafting a tailored multilayer heterostructure using electrospinning and electrostatic spraying, the study demonstrates a new pathway to engineer multifunctional materials that meet the increasing demands for performance, adaptability, and sustainability. Microstructural Design and Fabrication Strategy The composite films developed in this study utilize a layered architecture where each constituent is selected for its targeted functional contribution. The PEF nan...
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