Fast Charging All Solid‐State Lithium Batteries Enabled by Rational Design of Dual Vertically‐Aligned Electrodes
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DOI: 10.1002/adfm.202005357
Abstract: The slow charging limitations of all-solid-state lithium batteries (ASSLBs) have significantly limited their practical application. Thus, significant improvement of the rate performance and development of fast charging ASSLBs is crucial for the commercialization of these… read more here.
Keywords: fast charging; solid state; lithium batteries; vertically aligned ... See more keywords
Fast‐Charging and Ultrahigh‐Capacity Zinc Metal Anode for High‐Performance Aqueous Zinc‐Ion Batteries
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DOI: 10.1002/adfm.202100398
Abstract: Although some strategies have been triggered to address the intrinsic drawbacks of zinc (Zn) anodes in aqueous Zn‐ion batteries (ZIBs), the larger issue of Zn anodes unable to cycle at a high current density with… read more here.
Keywords: current density; capacity; ion batteries; zinc ... See more keywords
Fast Charging Anode Materials for Lithium‐Ion Batteries: Current Status and Perspectives
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DOI: 10.1002/adfm.202200796
Abstract: With the enormous development of the electric vehicle market, fast charging battery technology is highly required. However, the slow kinetics and lithium plating under fast charging condition of traditional graphite anode hinder the fast charging… read more here.
Keywords: ion batteries; anode materials; lithium ion; fast charging ... See more keywords
Mesoporous Single‐Crystal Lithium Titanate Enabling Fast‐Charging Li‐Ion Batteries
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DOI: 10.1002/adma.202109356
Abstract: There remain significant challenges in developing fast‐charging materials for lithium‐ion batteries (LIBs) due to sluggish ion diffusion kinetics and unfavorable electrolyte mass transportation in battery electrodes. In this work, a mesoporous single‐crystalline lithium titanate (MSC‐LTO)… read more here.
Keywords: ion batteries; single crystalline; fast charging; mesoporous single ... See more keywords
Superior Fast‐Charging Lithium‐Ion Batteries Enabled by the High‐Speed Solid‐State Lithium Transport of an Intermetallic Cu6Sn5 Network
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DOI: 10.1002/adma.202202688
Abstract: Superior fast charging is a desirable capability of lithium‐ion batteries, which can make electric vehicles a strong competition to traditional fuel vehicles. However, the slow transport of solvated lithium ions in liquid electrolytes is a… read more here.
Keywords: lithium; lithium ion; fast charging; transport ... See more keywords
Single‐Layer‐Particle Electrode Design for Practical Fast‐Charging Lithium‐Ion Batteries
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DOI: 10.1002/adma.202202892
Abstract: Efforts to enable fast charging and high energy density lithium‐ion batteries (LIBs) are hampered by the trade‐off nature of the traditional electrode design: increasing the areal capacity usually comes with sacrificing the fast charge transfer.… read more here.
Keywords: electrode; fast charging; electrode design; particle electrode ... See more keywords
Switching Electrolyte Interfacial Model to Engineer Solid Electrolyte Interface for Fast Charging and Wide‐Temperature Lithium‐Ion Batteries
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DOI: 10.1002/advs.202201893
Abstract: Engineering the solid electrolyte interphase (SEI) that forms on the electrode is crucial for achieving high performance in metal‐ion batteries. However, the mechanism of SEI formation resulting from electrolyte decomposition is not fully understood at… read more here.
Keywords: ion batteries; solid electrolyte; switching electrolyte; fast charging ... See more keywords
Triple Conductive Wiring by Electron Doping, Chelation Coating and Electrochemical Conversion in Fluffy Nb2O5 Anodes for Fast‐Charging Li‐Ion Batteries
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DOI: 10.1002/advs.202202201
Abstract: High‐rate anode material is the kernel of developing fast‐charging lithium ion batteries (LIBs). T–Nb2O5, well‐known for its “room and pillar” structure and bulk pseudocapacitive effect, is expected to enable the fast lithium (de)intercalation. But this… read more here.
Keywords: conductive wiring; ion batteries; fast charging; electron ... See more keywords
A Study of Model‐Based Protective Fast‐Charging and Associated Degradation in Commercial Smartphone Cells: Insights on Cathode Degradation as a Result of Lithium Depositions on the Anode
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DOI: 10.1002/aenm.202003019
Abstract: The ever expanding mobile consumer electronic market has accelerated the need for safe and efficient fast‐charging approaches that improve the overall speed of battery charging without hastened deterioration of the battery performance. Herein, the impact… read more here.
Keywords: model based; degradation; lithium; based protective ... See more keywords
Highly Stable Iron- and Carbon-based electrodes for Li-ion batteries: Negative Fading and Fast Charging Within 12 Min.
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DOI: 10.1002/cssc.202201137
Abstract: Lithium-ion batteries (LIBs) with high energy density and safety under conditions are highly desirable for electric vehicles (EVs). However, the favorable growth of Li dendrites and increased temperature at high charging rates, as well as… read more here.
Keywords: within min; ion batteries; negative fading; specific capacity ... See more keywords
Graphite-Based Composite Anodes with C-O-Nb Heterointerfaces Enable Fast Lithium Storage.
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DOI: 10.1002/cssc.202300067
Abstract: To better satisfy the increasing demands for electric vehicles, it's crucial to develop fast-charging lithium-ion batteries. However, the fast-charging capability of commercial graphite anodes is limited by the sluggish Li+ insertion kinetics. Herein, we report… read more here.
Keywords: based composite; graphite based; lithium; fast charging ... See more keywords