posted on 2021-06-07, 21:14authored byLu Qiao, Longtao Ren, Rongrong Zhang, Jing Chen, Minggui Xu, Jun Liu, HaiJun Xu, Wen Liu, Zheng Chang, Xiaoming Sun
Lithium–sulfur
(Li–S) batteries are a prospective
battery technology with high energy density, whereas the successful
implementation of Li–S batteries is still impeded by many challenges,
especially the shuttling effect of lithium polysulfides (LiPSs) and
sluggish redox kinetics. Therefore, it is urgent to find a novel host
material that could tackle these problems with a cost-effective manner.
Herein, the mesoporous and hollow carbon sphere embedded with homogeneous
VN quantum dots (noted as VN-H-C) is constructed and applied as an
efficient host for a sulfur cathode, which features both physical
and chemical trapping ability for soluble LiPSs. More importantly,
VN quantum dots can significantly accelerate the electrochemical conversion
of LiPSs. As a consequence, the S@VN-H-C cathode exhibits a high specific
capacity of 856.5 mAh g–1 at 1 C and maintains 602.5
mAh g–1 after 500 cycles with a low capacity decay
rate of only 0.059% per cycle. This study provides a feasible strategy
for designing nanostructured materials as effective sulfur hosts in
Li–S batteries.