Knittable energy storing fiber with high volumetric performance made from predominantly MXene nanosheets

Seyedin, Shayan; Yanza, Elliard Roswell S.; Razal, Joselito M.

Knittable energy storing fiber with high volumetric performance made from predominantly MXene nanosheets

2017

Seyedin, Shayan | Yanza, Elliard Roswell S. | Razal, Joselito M.

A new member of the 2D family called “MXene” offers metallic conductivity and outstanding electrochemical properties that are important for developing fiber supercapacitors. To date, however, scalable approaches for preparing MXene-based fibres have been relatively unexplored. Here we demonstrate that a graphene oxide liquid crystal-assisted fiber spinning approach can be used to produce novel fibers that are predominantly MXene by weight (∼88 wt%). These MXene fibers exhibit high volumetric capacitance (∼341 F cm⁻³) and electrical conductivity (∼72.3 S cm⁻¹) and excellent strength and flexibility that allow knitting of MXene-based textile prototypes. The supercapacitor device made from MXene fibers displays excellent stability after 20 000 cycles and delivers maximum energy and power densities of ∼5.1 mW h cm⁻³ and ∼1700 mW cm⁻³, respectively. This work introduces a new class of fiber supercapacitors that offer great potential for realizing flexible power sources for miniaturized electronic gadgets and wearable technologies.

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