Niobium oxides are an emerging class of anode materials
for use
in high-power lithium-ion batteries. Galvanostatic cycling and electrochemical
impedance spectroscopy (EIS) were used in this study to investigate
the influence of electrode porosity, electrode mass ratio, and cycling
rate on the capacity, cycle life, and ionic conductivity of Li-ion
battery cells based on a modified micron-sized MoNb
12
O
33
(MNO) anode powder. Both electrode and cell designs were
found to have a significant impact on the rate performance and cycle
life of Li-ion half- and full cells. A higher specific capacity, improved
rate performance, and a longer cycle life were obtained in both anode
and cathode half-cells by lowering the electrode porosity through
calendaring. MNO/Li half-coin cells displayed excellent cyclability,
reaching 80% state of health (SOH) after 600 cycles at C/2 charge
and 1C discharge. MNO/NMC622 full-coin cells displayed a high capacity
of 179 mAh g
–1
at 100 mA g
–1
(0.5
mA cm
–2
) and excellent cyclability at 25 °C,
reaching 70% SOH after over 1000 cycles at 1 mA cm
–2
after optimizing their N/P ratio. Excellent cyclability was obtained
at both 1C/1C and fast 2C/2C cycling, reaching 80% SOH after 700 and
470 cycles, respectively. Full-coin and small pouch cells had outstanding
rate performance as they could be charged from 0 to 84% capacity in
less than 5 min at 10 mA cm
–2
and to 70% SOC in
120 s at 20 mA cm
–2
.
The influence of diverse types of dispersing agents on the stability of aqueous boron carbide suspensions has been investigated. The best dispersants for aqueous B4C suspensions could not be accurately determined from zeta potential and settling experiments. Rheological measurements on concentrated slurries enabled identification of the optimal concentration of each dispersant and showed that PEI cationic polyelectrolytes were most effective.
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