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Mashup Score: 2The role of concentration in electrolyte solutions for non-aqueous lithium-based batteries - Nature Communications - 2 year(s) ago
The quest for high-energy electrochemical energy storage systems has driven researchers to look toward highly concentrated electrolytes. Here, the author discusses the recent progress and future perspectives of such electrolytes and their ability to improve the performances of lithium-based batteries.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 2Energy - 2 year(s) ago
In this page, all the relevant aspects of the energy field, such as harvesting, conversion, production, storage, consumption, resources, management and …
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 2
The low-temperature operation of non-aqueous sodium-based batteries is affected by the properties of the electrolyte. Here the authors propose specific electrolyte formulations that are thermally stable down to โ150โยฐC and enable a stable electrode|electrolyte interface at low temperatures.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 4Codoped porous carbon nanofibres as a potassium metal host for nonaqueous K-ion batteries - Nature Communications - 2 year(s) ago
The use of electrochemical energy storage systems based on alkali metal electrodes is hindered by the dendritesโ growth and volume changes upon cycling. Here, the authors propose nitrogen and zinc co-doped porous carbon nanofibers as potassium metal hosting material for reversible metal deposition.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 0Understanding the lithiumโsulfur battery redox reactions via operando confocal Raman microscopy - Nature Communications - 2 year(s) ago
The complex redox processes in lithiumโsulfur batteries are not yet fully understood at the fundamental level. Here, the authors report operando confocal Raman microscopy measurements to provide mechanistic insights into polysulfide evolution and sulfur deposition during battery cycling.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 0Impedance-based forecasting of lithium-ion battery performance amid uneven usage - Nature Communications - 2 year(s) ago
Accurate forecasts of lithium-ion battery performance will ease concerns about the reliability of electric vehicles. Here, the authors leverage electrochemical impedance spectroscopy and machine learning to show that future capacity can be predicted amid uneven use, with no historical data requirement.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet-
๐ JUST PUBLISHED ๐ Congratulations to @penelopekjones_ @iamalphalee at @Cambridge_Uni and Ulrich Stimming @SciencesNCL for their research work on the impedance-based forecasting of lithium-ion #battery performance #battchat #batterytwitter #openaccess https://t.co/QIkJBlwVz8 https://t.co/b6D20q0Krc
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Mashup Score: 5Operando methods for rechargeable batteries - 2 year(s) ago
Operando characterizations are crucial to improving the understanding of rechargeable batteries.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet-
๐ฃ NEW ๐ COLLECTION ALERT ๐ฃ If you want to understand what operando measurements are and how they can be applied to the #batteries research field, do not miss the reading of these outstanding #openaccess research articles #battchat #batterytwitter https://t.co/TADhQrD4iH https://t.co/JJQIID3K4P
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Mashup Score: 0The role of solid solutions in iron phosphate-based electrodes for selective electrochemical lithium extraction - Nature Communications - 2 year(s) ago
Lithium extraction from dilute sources could help solve the lithium supply security issue. Here, the authors investigate the Li- and Na- ion co-intercalation behavior in iron phosphate electrodes and demonstrate the lithium selectivity control through intercalation kinetic manipulations.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 0Development of high-energy non-aqueous lithium-sulfur batteries via redox-active interlayer strategy - Nature Communications - 2 year(s) ago
Lithium-sulfur batteries promise high energy density, but polysulfide shuttling acts as a major stumbling block toward practical development. Here, a redox-active interlayer is proposed to confine polysulfides, increase the cell capacity and improve cell cycle life.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
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Mashup Score: 1
Aqueous organic redox flow batteries are affected by short cycle life and low capacity. Here, the authors develop composite dihydroxyanthraquinone/polymer anolytes capable of improving the cycling stability and discharge capacity of aqueous organic redox flow batteries.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
๐ฃ NEW ๐ COMMENT ARTICLE OUT NOW ๐ฃ Congratulations to Gwen Giffin @Fraunhofer_ISC and @Uni_WUE for the fascinating analysis of the role of the electrolyte in Li-based batteries #battchat #batterytwitter #electrochemistry #energystorage #openaccess https://t.co/GW0wbC8U8k https://t.co/beCMYanWvA