1 research outputs found
Lightweight Carbon–Metal-Based Fabric Anode for Lithium-Ion Batteries
Lithium-ion battery
electrodes are typically manufactured
via slurry
casting, which involves mixing active material particles, conductive
carbon, and a polymeric binder in a solvent, followed by casting and
drying the coating on current collectors (Al or Cu). These electrodes
are functional but still limited in terms of pore network percolation,
electronic connectivity, and mechanical stability, leading to poor
electron/ion conductivities and mechanical integrity upon cycling,
which result in battery degradation. To address this, we fabricate
trichome-like carbon–iron fabrics via a combination of electrospinning
and pyrolysis. Compared with slurry cast Fe2O3 and graphite-based electrodes, the carbon–iron fabric (CMF)
electrode provides enhanced high-rate capacity (10C and above) and
stability, for both half cell and full cell testing (the latter with
a standard lithium nickel manganese oxide (LNMO) cathode). Further,
the CMFs are free-standing and lightweight; therefore, future investigation
may include scaling this as an anode material for pouch cells and
18,650 cylindrical batteries