posted on 2024-10-01, 15:03authored byFengxia Xin, Isik Su Buyuker, Hui Zhou, Fenghua Guo, Anshika Goel, Jianming Bai, Feng Wang, M. Stanley Whittingham
Ni-rich layered cathode materials have attracted extensive
attention
due to their higher energy density and technological maturity in commercialization.
As the nickel content is raised, especially surpassing 80%, the increased
energy density comes with the tradeoff of diminished thermal stability
and increased electrochemical structural instability of the cathode.
Compared with Co, Al, B, and Ta, the introduction of high valence
element Nb significantly improved the electrochemical cycling, delivering
a capacity of 202 mAh/g, corresponding to a capacity retention of
92% after 200 cycles tested at 45 °C. The ex situ differential
scanning calorimetry and in situ isothermal microcalorimetry demonstrate
that the Nb-modified cathode has the potential to enhance the safety
of ultrahigh nickel (Ni) NMCs and displays remarkable resilience to
extensive cycling by inhibiting high-temperature decomposition reactions
and exhibiting a lower heat flow during electrochemical cycling.