![]() ![]() Wenxiao Zhang, Jinlei Miao, Mingwei Tian, Xueji Zhang, Tingting Fan, Lijun Qu.This article is cited by 16 publications. Movie showing the capacitance sense performance of the transparent camouflage sensor ( MP4) Movie showing the brightness of LED lamp during the mechanical twisting process ( MP4) Movie showing the brightness of LED lamp during the FTEs bending process ( MP4) Materials, the preparation of vein, synthesis of AgNWs, synthesis of Ti3C2Tx MXene nanosheets, preparation of transparent electrode, preparation of FTEs switch, preparation of FTEs-FPC, preparation of FTEs touch screens, preparation of transparent capacitive sensor, characterization, picture of Michelia alba, SEM image showing the network structure of vein, TEM images of AgNWs, picture of AgNWs solution, picture of MXene solution, SEM image of the accordion-like Ti 3C 2T x MXene, XRD patterns of MAX and MXene, TEM image of MXene nanosheet, AFM-measured thickness of MXene nanosheet, FTIR spectrum of leaf vein, AgNWs and MXene, schematic illustrations interactions between AgNWs “weaved” MXene and vein fibers, resistance measurement of AgNWs/MXene FTEs, pictures of FTEs under different bending angles, air permeability of FTEs, picture of multiple FTEs, picture of multiple FTEs, SEM image of ITO and FTEs aftertimes bending, TEM images of AgNWs “weaved” MXene structure, picture and SEM images of CuNWs/GO FTEs, circuit diagram of FTEs connection to LED lights, LED bulb brightness changes under the FTEs bending and straightening, picture of the capacitive pressure sensor ( PDF) ![]() The Supporting Information is available free of charge at. The flexible transparent conductive mesh holds great potential in high-performance wearable optoelectronics and camouflage electronics. In addition, invisible camouflage sensors are further successfully developed as a proof of concept that could monitor human body motion signals in an imperceptible state. The flexible transparent electrodes exhibit sheet resistance of 0.5 Ω sq –1 and transparency of 81.6%, with a remarkably high figure of merit of 3523. Strong interfacial interactions between plant fibers and conductive units facilitate hierarchically interwoven conductive mesh constructed orderly on flexible and lightweight veins while maintaining high transparency, effectively avoiding the trade-off effect between optoelectronic properties. Herein, inspired by a hollow interconnected leaf vein, we developed robust transparent conductive mesh with biomimetic interwoven structure via hierarchically self-assembles silver nanowires interwoven metal carbide/nitride (MXene) sheets along directional microfibers. Flexible transparent electrodes demand high transparency, low sheet resistance, as well as excellent mechanical flexibility simultaneously, however they still remain to be a great challenge due to“trade-off” effect. ![]()
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