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Manganese oxides for lithium batteries
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This article is published in Progress in Solid State Chemistry.The article was published on 1997-01-01. It has received 1332 citations till now. The article focuses on the topics: Lithium vanadium phosphate battery & Lithium.read more
Citations
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Materials for electrochemical capacitors
TL;DR: This work has shown that combination of pseudo-capacitive nanomaterials, including oxides, nitrides and polymers, with the latest generation of nanostructured lithium electrodes has brought the energy density of electrochemical capacitors closer to that of batteries.
Journal ArticleDOI
Lithium Batteries and Cathode Materials
TL;DR: This paper will describe lithium batteries in more detail, building an overall foundation for the papers that follow which describe specific components in some depth and usually with an emphasis on the materials behavior.
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Li-ion battery materials: present and future
TL;DR: In this article, a review of the key technological developments and scientific challenges for a broad range of Li-ion battery electrodes is presented, and the potential/capacity plots are used to compare many families of suitable materials.
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Advanced Materials for Energy Storage
TL;DR: This Review introduces several typical energy storage systems, including thermal, mechanical, electromagnetic, hydrogen, and electrochemical energy storage, and the current status of high-performance hydrogen storage materials for on-board applications and electrochemicals for lithium-ion batteries and supercapacitors.
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Pseudocapacitive oxide materials for high-rate electrochemical energy storage
TL;DR: In this article, the pseudocapacitance properties of transition metal oxides have been investigated and a review of the most relevant pseudo-capacitive materials in aqueous and non-aqueous electrolytes is presented.
References
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Journal ArticleDOI
Rechargeable lithium battery with spinel-related λ-MnO2 III. Scaling-up problems associated with LiMn2O4 synthesis
TL;DR: In this paper, the scaling-up problems connected with the LiMn2O4 synthesis were studied and a strong effect of the mass of the starting materials and of the air flow rate through the furnace during the synthesis on the specific capacity was observed.
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An electrochemical study of the systems Li1±xV2O4 and Li1−xVO2 (0⩽x⩽1)
TL;DR: In this article, Li1±xV2O4 samples increase with lithiation from 4×10 −10 cm 2 / s in LiV 2 O 4 to 6×10−8 cm 2/ s in Lin 2 V 2O 4.
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Secondary Li cells. II. Characteristics of lithiated manganese oxides synthesized from LiNO3 and MnO2
L. Li,G. Pistoia +1 more
TL;DR: In this paper, the reaction between LiNO3 and MnO3 has been examined in details and it has been found that in selected experimental conditions the Li-Mn-O phase thus formed is predominantly LixMnO2 (with x ∼ 0.2 for a Li NO3: CMD ratio of 3: 7).
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Composition–Valence Diagrams: A New Representation of Topotactic Reactions in Ternary Transition Metal Oxide Systems. Application to Lithium Intercalation
TL;DR: In this paper, topotactic reactions in Li-M-O systems with M = Mn, Ti, V, Fe are described in the framework of composition-valence diagrams, using the Li/M and the transition metal valence ν(M ) as coordinates.
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Electrochemical behaviour of spinel LiMn2O4 as positive electrode in rechargeable lithium cells
TL;DR: In this article, the spinel, lithium intercalation compound LiMn2O4 is prepared and studied using the techniques of a.c. impedance and cyclic voltammetry.