Greenificated molecularly imprinted materials for advanced applications
Molecular imprinting technology (MIT) produces artificial binding sites with precise
complementarity to substrates and thereby is capable of exquisite molecular recognition …
complementarity to substrates and thereby is capable of exquisite molecular recognition …
Advances in high sulfur loading cathodes for practical lithium‐sulfur batteries
Lithium‐sulfur batteries hold great potential for next‐generation energy storage systems,
due to their high theoretical energy density and the natural abundance of sulfur. Although …
due to their high theoretical energy density and the natural abundance of sulfur. Although …
Engineering cooperative catalysis in Li–S batteries
J Qin, R Wang, P Xiao, D Wang - Advanced Energy Materials, 2023 - Wiley Online Library
Abstract Lithium–sulfur (Li–S) batteries are regarded to be one of the most promising next‐
generation batteries owing to the merits of high theoretical capacity and low cost. However …
generation batteries owing to the merits of high theoretical capacity and low cost. However …
Toward high-sulfur-content, high-performance lithium-sulfur batteries: Review of materials and technologies
F Zhao, J Xue, W Shao, H Yu, W Huang… - Journal of Energy …, 2023 - Elsevier
Lithium sulfur batteries (LSBs) are recognized as promising devices for developing next-
generation energy storage systems. In addition, they are attractive rechargeable battery …
generation energy storage systems. In addition, they are attractive rechargeable battery …
Catalytic effect in Li-S batteries: From band theory to practical application
Abstract Lithium-sulfur (Li-S) batteries with high energy density have been considered one
kind of promising next-generation energy storage system. However, the shuttling effect of …
kind of promising next-generation energy storage system. However, the shuttling effect of …
Unity of opposites between soluble and insoluble lithium polysulfides in lithium–sulfur batteries
Rechargeable batteries based on Li–S chemistry show promise as being possible for next‐
generation energy storage devices because of their ultrahigh capacities and energy …
generation energy storage devices because of their ultrahigh capacities and energy …
Designing polymers for advanced battery chemistries
Electrochemical energy storage devices are becoming increasingly important to our global
society, and polymer materials are key components of these devices. As the demand for …
society, and polymer materials are key components of these devices. As the demand for …
A comprehensive review of materials with catalytic effects in Li–S batteries: enhanced redox kinetics
Lithium–sulfur batteries (LSBs) are cost‐effective and high‐energy‐density batteries.
However, the insulating nature of active materials, the shuttle effect, and slow redox kinetics …
However, the insulating nature of active materials, the shuttle effect, and slow redox kinetics …
Polymers in lithium–sulfur batteries
Q Zhang, Q Huang, SM Hao, S Deng, Q He… - Advanced …, 2022 - Wiley Online Library
Lithium–sulfur batteries (LSBs) hold great promise as one of the next‐generation power
supplies for portable electronics and electric vehicles due to their ultrahigh energy density …
supplies for portable electronics and electric vehicles due to their ultrahigh energy density …
Heterogeneous/homogeneous mediators for high‐energy‐density lithium–sulfur batteries: progress and prospects
Abstract Lithium–sulfur (Li–S) batteries deliver a high theoretical energy density of 2600 Wh
kg− 1, and hold great promise to serve as a next‐generation high‐energy‐density battery …
kg− 1, and hold great promise to serve as a next‐generation high‐energy‐density battery …