Results 291 to 300 of about 560,523 (346)

Critical Review on Low‐Temperature Li‐Ion/Metal Batteries

Advanced Materials, 2022
AbstractWith the highest energy density ever among all sorts of commercialized rechargeable batteries, Li‐ion batteries (LIBs) have stimulated an upsurge utilization in 3C devices, electric vehicles, and stationary energy‐storage systems. However, a high performance of commercial LIBs based on ethylene carbonate electrolytes and graphite anodes can ...
Nan Zhang, Tao Deng, Shuoqing Zhang, Changhong Wang, Lixin Chen, Chunsheng Wang, Xiulin Fan   +6 more
openaire   +2 more sources

Liquid phase therapy to solid electrolyte–electrode interface in solid-state Li metal batteries: A review

, 2020
Solid-state lithium (Li) metal batteries, employing solid electrolytes, with high energy density and enhanced safety are promising choices for next-generation electrochemical energy storage devices.
Chen‐Zi Zhao, Bo Zhao, Chong Yan, Xue‐Qiang Zhang, Jia-qi Huang, Yifei Mo, Xiaoxiong Xu, Hong Li, Qiang Zhang   +8 more
semanticscholar   +1 more source

Metal Halides in Li-Ion Batteries

ECS Meeting Abstracts, 2015
There is a critical need for improved electrical energy storage in terms of capacity, voltage, recharge time, safety and cost for a renewable energy grid, practical electric vehicle technology, and future portable energy technology. One approach under consideration to overcome current limitations in lithium ion batteries is to utilize a multielectron ...
Craig A Bridges, Jonathan M Powell, Gabriel M Veith, Arnab Banerjee, Stephen E. Nagler, Sheng Dai   +5 more
openaire   +1 more source

An Air‐Stable and Li‐Metal‐Compatible Glass‐Ceramic Electrolyte enabling High‐Performance All‐Solid‐State Li Metal Batteries

Advances in Materials, 2021
The development of all‐solid‐state Li metal batteries (ASSLMBs) has attracted significant attention due to their potential to maximize energy density and improved safety compared to the conventional liquid‐electrolyte‐based Li‐ion batteries.
Feipeng Zhao, S. H. Alahakoon, Keegan Adair, Shumin Zhang, Wei Xia, Weihan Li, Chuang Yu, R. Feng, Yongfeng Hu, Jianwen Liang, Xiaoting Lin, Yang Zhao, Xiaofei Yang, T. Sham, Huan Huang, Li Zhang, Shangqian Zhao, Shi-gang Lu, Yining Huang, X. Sun   +19 more
semanticscholar   +1 more source

Cationic Defect-Modulated Li-Ion Migration in High-Voltage Li-Metal Batteries

ACS Nano, 2023
Li metal exhibits high potential as an anode material for next-generation high-energy density batteries. However, the nonuniform transport of Li+ ions causes Li-dendrite growth at the metal electrode, leading to severe capacity decay and a short cycling life.
Yingmeng Zhang, Jianhua Zhang, Zaohui Ding, Lixuan Zhang, Libo Deng, Lei Yao, Hui Ying Yang   +6 more
openaire   +2 more sources

Consecutive Nucleation and Confinement Modulation towards Li Plating in Seeded Capsules for Durable Li-Metal Batteries.

Angewandte Chemie, 2021
Lithium-metal batteries (LMBs) stimulate the innovation of energy storage technologies due to the high theoretical capacity of lithium (Li) metal anode.
Minsong Huang, Zhenguo Yao, Qifan Yang, Chilin Li   +3 more
semanticscholar   +1 more source

Passivation Layers in Mg‐Metal Batteries: Robust Interphases for Li‐Metal Batteries

Advanced Materials
AbstractIn advanced batteries, interphases serve as the key component in stabilizing the electrolyte with reactive electrode materials far beyond thermodynamic equilibria. While an active interphase facilitates the transport of working ions, an inactive interphase obstructs ion flow, constituting the primary barrier to the realization of battery ...
Zhiming Zhao, Binbin Nian, Yongjiu Lei, Lingyun Zhao, Mohamed N. Hedhili, Dong Guo, Zixiong Shi, Wenli Zhao, Jehad K. El‐Demellawi, Yizhou Wang, Yunpei Zhu, Kang Xu, Husam N. Alshareef   +12 more
openaire   +2 more sources

Nanoporous Metals for Li Battery Applications

2016
Electrode materials with nanoporous structures have been widely investigated and gained great success in Li-ion batteries and Li-air batteries. Compared with normal electrodes, they usually show improved electrochemical performance which are mainly originated from the following aspects: (1) 3D bicontinuous architectures provide high surface areas ...
Yi Ding, Zhonghua Zhang
openaire   +1 more source

Stable Li metal anode with protected interface for high-performance Li metal batteries

Energy Storage Materials, 2018
Abstract Li metal is regarded as the most attractive anode because of its high specific capacity, low reduction potential, and low density. However, low coulombic efficiency and the formation of Li dendrites cause challenges in short cycle life and safety issues, highlighting a need for an innovative design of lithium metal anode with high areal ...
Qian Wang, Chenkai Yang, JiJin Yang, Kai Wu, Liya Qi, Hui Tang, Zhenyu Zhang, Wen Liu, Henghui Zhou   +8 more
openaire   +1 more source

Negatives for secondary Li-batteries: Li-alloys or metallic Li?

1987
Metallic lithium anodes as well as Li-alloy anodes are currently used in commercial rechargeable organic electrolyte batteries. The disadvantage of Li-alloys is of course low energy density and power density compared to metallic lithium; for some applications this disadvantage may be overbalanced by better cycling and storage behaviour of the alloys.
J. O. Besenhard, J. Gürtler, P. Komenda
openaire   +1 more source