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New Electrolytes for Capacitive Electrochemical Storage
用于电容电化学存储的新型电解质
基本信息
- 批准号:431337203
- 负责人:
- 金额:--
- 依托单位:
- 依托单位国家:德国
- 项目类别:Research Grants
- 财政年份:
- 资助国家:德国
- 起止时间:
- 项目状态:未结题
- 来源:
- 关键词:
项目摘要
In the last years tremendous efforts have been dedicated toward the development of advanced materials suitable for electrochemical energy storage devices such as Electrochemical Capacitors (ECs). Novel electrolytes as well as novel active materials have been proposed, and it has been shown that these materials display favourable properties, which could indeed allow the realization of new storage systems. Nevertheless, it is now necessary to deeply understand the storage process, which is taking place when these novel electrolytes and materials are used together. The aim of this collaborative project between the research groups of Prof. Balducci at the Friedrich Schiller University of Jena (Germany) and that of Prof. Simon at the Paul Sabatier University of Toulouse (France) is to understand the storage process/mechanism of carbonaceous and pseudo-capacitive materials in non-conventional, high voltage electrolytes suitable for the realization of high energy ECs.
在过去的几年中,巨大的努力已经致力于开发适用于电化学能量存储装置如电化学电容器(EC)的先进材料。已经提出了新的电解质以及新的活性材料,并且已经表明这些材料显示出有利的性质,这确实可以实现新的存储系统。然而,现在有必要深入了解这些新型电解质和材料一起使用时发生的存储过程。 这个合作项目的目的是在耶拿的弗里德里希席勒大学(德国)的Balducci教授和图卢兹的Paul Sabatier大学(法国)的Simon教授的研究小组之间,了解碳质和赝电容材料在非常规的、适用于实现高能EC的高压电解质中的存储过程/机制。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Professor Dr. Andrea Balducci其他文献
Professor Dr. Andrea Balducci的其他文献
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{{ truncateString('Professor Dr. Andrea Balducci', 18)}}的其他基金
Redox-active ionic liquids in redox-flow-batteries
氧化还原液流电池中的氧化还原活性离子液体
- 批准号:
392851120 - 财政年份:2018
- 资助金额:
-- - 项目类别:
Research Grants
The combined use of computational screening and electrochemical characterization for the identification of new electrolyte components for supercapacitors
结合使用计算筛选和电化学表征来鉴定超级电容器的新型电解质成分
- 批准号:
333441846 - 财政年份:2017
- 资助金额:
-- - 项目类别:
Research Grants
EDLstruct - Effect of carbon electrodes porous structure and electrolyte properties on the formation and composition of the electrical double-layer
EDLstruct - 碳电极多孔结构和电解质特性对双电层形成和组成的影响
- 批准号:
380691101 - 财政年份:2017
- 资助金额:
-- - 项目类别:
Research Grants
Protic ionic liquids as innovative electrolytes for lithium-ion batteries
质子离子液体作为锂离子电池的创新电解质
- 批准号:
264118673 - 财政年份:2015
- 资助金额:
-- - 项目类别:
Research Grants
Novel In-Situ Electrolytes for Electrochemical Capacitors
用于电化学电容器的新型原位电解质
- 批准号:
463487968 - 财政年份:
- 资助金额:
-- - 项目类别:
Research Grants
P1 - Self-healing electrodes for electro(chemical) energy storage
P1 - 用于电化学(化学)储能的自愈电极
- 批准号:
502258938 - 财政年份:
- 资助金额:
-- - 项目类别:
Research Units
Influence of the electrolyte composition on the stability of polymeric materials for organic radical batteries (ElectroPoly)
电解质成分对有机自由基电池聚合物材料稳定性的影响(ElectroPoly)
- 批准号:
535375650 - 财政年份:
- 资助金额:
-- - 项目类别:
Priority Programmes
Electro- and Photocatalytic N2 conversion with transition metal chalcogenides over 2D and 3D structured electrodes (NI-CONSTRUCT)
在 2D 和 3D 结构电极上使用过渡金属硫属化物进行电催化和光催化 N2 转化 (NI-CONSTRUCT)
- 批准号:
501901537 - 财政年份:
- 资助金额:
-- - 项目类别:
Priority Programmes
相似海外基金
Fire-retardant Solid State Electrolytes for Rechargeable Li-ion Batteries
用于可充电锂离子电池的阻燃固态电解质
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DP240102728 - 财政年份:2024
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CAREER: Elucidating the Correlative Interfacial Solvation, Nucleation, and Growth Processes in Battery Electrolytes
职业:阐明电池电解质中相关的界面溶剂化、成核和生长过程
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2339175 - 财政年份:2024
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Continuing Grant
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通过原位同步加速器 XRD 了解固态电解质的机械合成机制
- 批准号:
24K17553 - 财政年份:2024
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Grant-in-Aid for Early-Career Scientists
ERI: Unravel Charge Transfer Mechanisms in the Bulk and at Interphases and Interfaces of Ionogel Solid Electrolytes for High-Power-Density All-Solid-State Li Metal Batteries
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- 批准号:
2347542 - 财政年份:2024
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Standard Grant
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利用核磁共振波谱 (NMR) 和成像 (MRI) 解读固体电解质中锂微结构形成的竞争机制
- 批准号:
2319151 - 财政年份:2024
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Understanding the Key to Unlocking Fast Li-ion Conduction in Fluoride-based Solid Electrolytes
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2329953 - 财政年份:2024
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Tailoring Quasi-Solid-State 'Water-in-Swelling-Clay' Electrolytes for High-Voltage, Durable Aqueous Zinc-Ion Batteries
为高压、耐用的水性锌离子电池定制准固态“膨胀粘土中的水”电解质
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2324593 - 财政年份:2024
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合作研究:为氧化还原目标液流电池设计固体助推器和电解质
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2329651 - 财政年份:2024
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