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Personal thermal management textile/wearable is an effective strategy to expand the indoor temperature setpoint range to reduce a building’s energy consumption. Usually, textiles/wearables that were engineered for controlling conduction, convection, radiation, or sweat evaporation have been developed separately. Here, we demonstrate a multimodal adaptive wearable with moisture-responsive flaps composed of a nylon/metal heterostructure, which can simultaneously regulate convection, sweat evaporation, and mid-infrared emission to accomplish large and rapid heat transfer tuning in response to human perspiration vapor. We show that the metal layer not only plays a crucial role in low-emissivity radiative heating but also enhances the bimorph actuation performance. The multimodal adaptive mechanism expands the thermal comfort zone by 30.7 and 20.7% more than traditional static textiles and single-modal adaptive wearables without any electricity and energy input, making it a promising design paradigm for personal heat management.more » « less
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Ma, Boran ; Finan, Nicholas_J ; Jany, David ; Deagen, Michael_E ; Schadler, Linda_S ; Brinson, L_Catherine ( , Macromolecules)
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Wang, Gang ; Eastham, Nicholas D. ; Aldrich, Thomas J. ; Ma, Boran ; Manley, Eric F. ; Chen, Zhihua ; Chen, Lin X. ; de la Cruz, Monica Olvera ; Chang, Robert P. ; Melkonyan, Ferdinand S. ; et al ( , Advanced Energy Materials)