Xiaoke Mu

TL;DR: The restriction to ultrasmall reaction domains allows for an almost diffusion-less and nucleation-free "conversion" of MoS2 nanodots, thereby resulting in a high capacity and a remarkable cycling performance.

TL;DR: Tang et al. as mentioned in this paper proposed a method to solve the problem of multilayer materials in Solid State Research (SSR) and applied it in the field of Artificial Intelligence (AI).

TL;DR: This Communication proposes the use of a novel nanocarbon architecture as lithium-ion battery anode material : an ensemble of monodisperse hollow carbon nanospheres synthesized via a combined polystyrene latex/hydrothermal carbonization templating approach, report herein that the unique structural combination offered by these sustainable carbon nanomaterials, that is, a hollow interior and a thin carbon shell, leads to a lithium-ions batteries with excellent cycling performance and superior rate capability.

TL;DR: A novel pyrochlore phase that appears to be useful as a high-capacity cathode for Li and Na batteries is reported, an iron fluoride polymorph characterized by an intersecting tunnel structure, providing the space for accommodation and transport ofLi and Na ions.

TL;DR: Yu et al. as mentioned in this paper proposed a key laboratory for energy conversion at the University of Science and Technology of China Hefei, Anhui, China, which is based on the Max Planck Institute for Solid State Research Heisenbergstr. 3, Stuttgart 70569, Germany.