Results 31 to 40 of about 2,576 (218)

Room‐temperature metal–sulfur batteries: What can we learn from lithium–sulfur?

open access: yesInfoMat, 2022
Rechargeable metal–sulfur batteries with the use of low‐cost sulfur cathodes and varying choice of metal anodes (Li, Na, K, Ca, Mg, and Al) represent diverse energy storage solutions to satisfy different application requirements.
Hualin Ye, Yanguang Li
doaj   +1 more source

What Can be Expected from “Anode‐Free” Lithium Metal Batteries?

open access: yesAdvanced Energy & Sustainability Research, 2021
“Anode‐free” lithium metal batteries are cells that have no excess lithium metal. They have become a topic of tremendous attention, mostly driven by recent progress and interest in practical batteries with Li metal anodes.
Rodrigo V. Salvatierra   +2 more
doaj   +1 more source

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

open access: yesBatteries, 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   +6 more
doaj   +1 more source

Advancing Lithium Metal Batteries [PDF]

open access: yesJoule, 2018
Summary Considering the limited energy density of traditional graphite-anode-based lithium (Li)-ion batteries, alternative high-capacity anodes are greatly needed for the next-generation high-energy-density battery systems. In this regard, Li metal is well known to be one of the most promising anodes due to its ultrahigh capacity (3,860 mAh g −1 ) and
Bin Liu, Ji-Guang Zhang, Wu Xu
openaire   +1 more source

A dual-function liquid electrolyte additive for high-energy non-aqueous lithium metal batteries

open access: yesNature Communications, 2022
Lithium metal batteries suffer from poor (electro)chemical stability of the electrodes during prolonged cycling. Here, the authors report a dual function liquid electrolyte additive to form protective interphases on both electrodes to produce lab-scale ...
Yuji Zhang   +5 more
doaj   +1 more source

Research progress on lithium anode and interface engineering of lithium/solid-state electrolyte in all-solid-state lithium metal battery

open access: yesCailiao gongcheng, 2021
Lithium metal has a low redox potential (-3.04 V vs standard hydrogen electrode) and high specific capacity (3860 mAh/g), making it an ideal anode material for lithium secondary batteries.
YANG Jie   +4 more
doaj   +1 more source

Optimization strategy for metal lithium negative electrode interface in all-solid-state lithium batteries [PDF]

open access: yesE3S Web of Conferences
Lithium metal is a perfect anode material for lithium secondary batteries because of its low redox potential and high specific capacity. In the future, solid-state lithium batteries constructed with embedded lithium anodes, solid-state electrolytes, and ...
Zhou Guanyu
doaj   +1 more source

Material and Waste Flow Analysis for Environmental and Economic Impact Assessment of Inorganic Acid Leaching Routes for Spent Lithium Batteries’ Cathode Scraps

open access: yesBatteries, 2023
With the development trend and technological progress of lithium batteries, the battery market is booming. This means that the demand for lithium batteries has increased significantly, resulting in a large number of discarded lithium batteries.
Yi-Chin Tang   +3 more
doaj   +1 more source

Research Progress of Anode-Free Lithium Metal Batteries

open access: yesCrystals, 2022
Lithium-metal batteries (LMBs) are regarded as the most promising candidate for practical applications in portable electronic devices and electric vehicles because of their high capacity and energy density.
Jian Zhang   +7 more
doaj   +1 more source

Protecting lithium metal anodes in lithium–sulfur batteries: A review

open access: yesEnergy Material Advances, 2023
Lithium–sulfur (Li–S) batteries are considered as one of the most promising next-generation energy storage devices because of their ultrahigh theoretical energy density beyond lithium-ion batteries.
Chen-Xi Bi   +7 more
doaj   +1 more source

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