Improving Flexibility and Capacitive Charge Storability in Free-Standing Carbon Nanofiber Electrodes

Abstract: Energy storage devices with higher volumetric energies and power densities are crucial in delivering high electrochemical performances without being bulky. Herein, a flexible free-standing carbon nanofiber (CNF) electrode with and without graphene is derived from electrospun polyacrylonitrile nanofiber mesh. The embedded graphene enhanced the conductivity of the polymeric solution, generating significant "whipping" motion to create better fiber cross-linking that enhances the flexibilities of CNFs. Besides, th… Show more

“…Electrospinning is a unique technology to produce ultralong continuous 1D materials with different morphologies of fiber and tube and even nanosized fiber and tube by tuning the parameters of the electrospinning method and the solution. − Therefore, electrospinning is especially favored to prepare a flexible membrane of the polymer precursor by stacking the fiber, and the electrode consisting of 1D electrospun carbon nanofibers (ECNFs) is obtained when the above membrane of the polymer precursor is carbonized. However, it remains a challenge to create flexible ENCFs to meet the increasing demands for wearable devices, because ENCFs often own weak strength and flexibility after calcination. , …”

Sn-Improving Flexible Carbon Electrode from Electrospun Nanofibers for a High-Performance Supercapacitor

“…Electrospinning is a unique technology to produce ultralong continuous 1D materials with different morphologies of fiber and tube and even nanosized fiber and tube by tuning the parameters of the electrospinning method and the solution. − Therefore, electrospinning is especially favored to prepare a flexible membrane of the polymer precursor by stacking the fiber, and the electrode consisting of 1D electrospun carbon nanofibers (ECNFs) is obtained when the above membrane of the polymer precursor is carbonized. However, it remains a challenge to create flexible ENCFs to meet the increasing demands for wearable devices, because ENCFs often own weak strength and flexibility after calcination. , …”

Sn-Improving Flexible Carbon Electrode from Electrospun Nanofibers for a High-Performance Supercapacitor

Review of MXenes as a component in smart textiles and an adsorbent for textile wastewater remediation

A rigid free-standing supercapacitor electrode material made from fat coal-based activated carbon foam