Results 11 to 20 of about 143,042 (278)

Lithiophilic Nanowire Guided Li Deposition in Li Metal Batteries

Small, 2022
AbstractLithium (Li) metal batteries (LMBs) provide superior energy densities far beyond current Li‐ion batteries (LIBs) but practical applications are hindered by uncontrolled dendrite formation and the build‐up of dead Li in “hostless” Li metal anodes.
Syed Abdul Ahad, Shayon Bhattacharya, Seamus Kilian, Michela Ottaviani, Kevin M. Ryan, Tadhg Kennedy, Damien Thompson, Hugh Geaney   +7 more
openaire   +3 more sources

Glassy Li metal anode for high-performance rechargeable Li batteries [PDF]

Nature Materials, 2020
29 pages, 8 ...
Xuefeng Wang, Gorakh Pawar, Yejing Li, Xiaodi Ren, Minghao Zhang, Bingyu Lu, Abhik Banerjee, Ping Liu, Eric J. Dufek, Ji-Guang Zhang, Jie Xiao, Jun Liu, Ying Shirley Meng, Boryann Liaw   +13 more
openaire   +5 more sources

Electrolyte screening studies for Li metal batteries [PDF]

Chemical Communications, 2020
From 60 solvent electrolyte combinations tested, we find that Li metal anodes, tested in 1 M LiFSI in DOL:DME exhibit an outstanding cycling performance (>500 cycles) even at high current densities (3 mA cm−2).
Jeesoo Seok, Na Zhang, Burak Ulgut, Aihua Jin, Seung-Ho Yu, Héctor D. Abruña   +5 more
openaire   +3 more sources

Lithium Storage in Nanoporous Complex Oxide 12CaO•7Al2O3 (C12A7) [PDF]

, 2020
Porous materials have generated a great deal of interest for use in energy storage technologies, as their architectures have high surface areas due to their porous nature.
Chroneos, Alexander, Kuganathan, Navaratnarajah   +1 more
core   +1 more source

Gas Generation Mechanism in Li‐Metal Batteries [PDF]

ENERGY & ENVIRONMENTAL MATERIALS, 2021
Gas generation induced by parasitic reactions in lithium‐metal batteries (LMB) has been regarded as one of the fundamental barriers to the reversibility of this battery chemistry, which occurs via the complex interplays among electrolytes, cathode, anode, and the decomposition species that travel across the cell.
Huajun Zhao, Jun Wang, Huaiyu Shao, Kang Xu, Yonghong Deng   +4 more
openaire   +1 more source

Prefabrication of a Lithium Fluoride Interfacial Layer to Enable Dendrite-Free Lithium Deposition

Batteries, 2023
Lithium metal is one of the most attractive anode materials for rechargeable batteries. However, its high reactivity with electrolytes, huge volume change, and dendrite growth upon charge or discharge lead to a low CE and the cycle instability of ...
Jie Ni, Yike Lei, Yongkang Han, Yingchuan Zhang, Cunman Zhang, Zhen Geng, Qiangfeng Xiao   +6 more
doaj   +1 more source

Quantifying Inactive Lithium in Lithium Metal Batteries [PDF]

, 2019
Inactive lithium (Li) formation is the immediate cause of capacity loss and catastrophic failure of Li metal batteries. However, the chemical component and the atomic level structure of inactive Li have rarely been studied due to the lack of effective ...
A Drenik, BD Adams, Bingyu Lu, BL Mehdi, C Xu, Chengcheng Fang, D Aurbach, D Lin, D Lu, Fan Yang, H Lee, H Lee, I Yoshimatsu, J Alvarado, J Lu, J Saint, J Steiger, J Zheng, J Zheng, Jing Gu, Jinxing Li, JM Tarascon, Judith Alvarado, Jungwoo Z. Lee, K Xu, K-H Chen, Kang Xu, KJ Harry, KN Wood, Li Yang, Marshall A. Schroeder, Mei Cai, Miguel Ceja, Min-Han Lee, Minghao Zhang, MJ Zachman, Nicholas Williams, P Bai, R Bhattacharyya, S Chandrashekar, S Li, SM Wood, W Xu, X Wang, X Yin, XB Cheng, Xuefeng Wang, Y Li, Yangyuchen Yang, Yihui Zhang, Ying Shirley Meng, YY Hu   +51 more
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Carbon materials for stable Li metal anodes: Challenges, solutions, and outlook

Carbon Energy, 2021
Lithium (Li) metal is regarded as the ultimate anode for next‐generation Li‐ion batteries due to its highest specific capacity and lowest electrochemical potential.
Qiongqiong Lu, Yulin Jie, Xiangqi Meng, Ahmad Omar, Daria Mikhailova, Ruiguo Cao, Shuhong Jiao, Yan Lu, Yaolin Xu   +8 more
doaj   +1 more source

Li-B Alloy as an Anode Material for Stable and Long Life Lithium Metal Batteries

Energies, 2018
Rechargeable Li metal batteries have attracted lots of attention because they can achieve high energy densities. However, the commercialization of rechargeable Li metal batteries is delayed because Li dendrites may be generated during the batteries’
Qiang Liu, Sisi Zhou, Cong Tang, Qiaoling Zhai, Xianggong Zhang, Rui Wang   +5 more
doaj   +1 more source

Mechanical rolling formation of interpenetrated lithium metal/lithium tin alloy foil for ultrahigh-rate battery anode [PDF]

, 2020
To achieve good rate capability of lithium metal anodes for high-energy-density batteries, one fundamental challenge is the slow lithium diffusion at the interface.
Cui, Yi, Kang, Sujin, Lee, Hyun-Wook, Sun, Yongming, Wan, Mintao, Wang, Li, Zheng, Guangyuan Wesley   +6 more
core   +1 more source