Nanowerk September 8, 2021
In spite of the excellent electrical and electrochemical properties, two-dimensional transition metal carbide (MXene) is often limited by the high stiffness for the direct implementation in next-generation stretchable and wearable energy storage devices. After screening for the thickness, researchers in China identified the crumpled MXene film of ∼3 μm in thickness as the optimal choice to mitigate the crack formations under large and repetitive mechanical strains. The as-prepared symmetric supercapacitor demonstrated a high specific capacitance of ∼470 mF cm–2, ultrahigh stretchability up to 800% area strain, and >90% retention of the initial capacitance after 1000 stretch–relaxation cycles. The work opens an attractive avenue to design stretchable electrodes based on various two-dimensional nanomaterials and their composites…read more. Video TECHNICAL ARTICLE
