Shenglan Yu

TL;DR: In this paper, an in-situ synthesized Prussian blue (PB) composite was used as a high-performance SIB cathode, and the synergistic effects of the structure and morphology results in the PB@C composite achieving an unprecedented rate capability and outstanding cycling stability.

TL;DR: In this article, a Prussian blue structure of FeNiHCF with high capacity, remarkable cycling stability, superior rate capability and good Coulombic efficiency was reported for a discharge capacity of 106 mAh g−1, a Coulomb efficiency of ∼97% and excellent capacity retention of 96% over 100 cycles.

TL;DR: A novel and scalable route to synthesize ultrathin nanobelts of anatase TiO2, which is resource abundant and is eligible for safe anodes in LIBs, and demonstrates outstanding performances for lithium storage.

TL;DR: In this paper, a rational design of 3D-staggered metal-oxide nanocomposite electrode directly fabricated by pulsed spray evaporation chemical vapor deposition, where various oxide nanocomponents are in a staggered distribution uniformly along three dimensions and across the whole electrode.

TL;DR: Porous Ni/SnO2 composite electrode composed of homogeneously distributed SnO2 and Ni nanoparticles is constructed, leading to full conversion reaction, superior cycling stability and improved rate capability, and the results demonstrate that Ni/snO2 is a high-performance anode for advanced lithium-ion batteries with high specific capacity, excellent rate capabilities, and cycling stability.