A single wearable machine that seamlessly integrates all fascinating capabilities is in pressing demand. Nevertheless, the reported approaches to design such a tool can solely combine two or three capabilities as a compromise owing to the mutual restraint between seemingly unrelated capabilities. On this examine, utilizing a ‘one-stone-five-birds’ technique, an all-in-one thermal administration textile containing Ag/Ti–TiO2 multilayer movies (solely 893 nm in thickness) was produced by a easy one-step magnetron sputtering course of. Firstly, the underside Ag layer acted as a cloth with low emissivity for passive heating and wonderful conductivity for Joule heating (60.2 °C at 3 V). Moreover, this layer was able to electromagnetic interference shielding (31 dB after 5000 stretching cycles). Secondly, a nano-gradient Ti–TiOx wavelength-selective absorber was used to attain excellent photothermal conversion (94.1 °C below 1 kW/m2 irradiation and 88.1 °C after 10 000 stretching cycles). Lastly, the outermost TiO2 layer performed two roles: as an anti-reflective layer to additional enhance daylight absorption and to cut back the floor vitality for sturdy superhydrophobicity. The contact angle of a water drop on the floor of the NSMTs all the time remained above 150° after varied mechanical therapies, resembling 10 000 stretching cycles and 2000 tape-peeling cycles. Owing to the general concerns and synergistic enhancement, all of those capabilities exceeded or matched these of the state-of-the-art supplies in lately reported research. This examine represents a vital breakthrough for developing high-performance versatile wearable gadgets.
