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solid electrolyte interphase 2

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TEM 1

Ti-V microalloyed steel 1

active filler/framework 1

additives 1

composite solid electrolytes 1

dendrite 1

dominant 1

electrolyte 1

graphite 1

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high-concentration electrolyte 1

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interphase compatibility 1

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isothermal phase transformation 1

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Interphase precipitation in low carbon Ti-V microalloyed steels

Jia Tao,Wei Jiao,Feng Jie,Zhang Weina,Liu Zhenyu and Wang Guodong

Strategic Study of CAE 2014, Volume 16, Issue 1, Pages 88-92

Abstract: dilatometer，the sample was held at austenite/ferrite dual- phase temperature region and the Ti-V complex interphaseelectron microscopy （TEM） were employed to analyze the microstructure，especially the morphology of the interphaseThe interphase precipitates exhibit sheet-like distribution，including flat and curved sheets and adopt

Keywords： Ti-V microalloyed steel interphase precipitation isothermal phase transformation TEM

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Localized high-concentration electrolytes for lithium metal batteries: progress and prospect

Frontiers of Chemical Science and Engineering 2023, Volume 17, Issue 10, Pages 1354-1371 doi: 10.1007/s11705-022-2286-4

Abstract: With the increasing development of digital devices and electric vehicles, high energy-density rechargeable batteries are strongly required. As one of the most promising anode materials with an ultrahigh specific capacity and extremely low electrode potential, lithium metal is greatly considered an ideal candidate for next-generation battery systems. Nevertheless, limited Coulombic efficiency and potential safety risks severely hinder the practical applications of lithium metal batteries due to the inevitable growth of lithium dendrites and poor interface stability. Tremendous efforts have been explored to address these challenges, mainly focusing on the design of novel electrolytes. Here, we provide an overview of the recent developments of localized high-concentration electrolytes in lithium metal batteries. Firstly, the solvation structures and physicochemical properties of localized high-concentration electrolytes are analyzed. Then, the developments of localized high-concentration electrolytes to suppress the formation of dendritic lithium, broaden the voltage window of electrolytes, enhance safety, and render low-temperature operation for robust lithium metal batteries are discussed. Lastly, the remaining challenges and further possible research directions for localized high-concentration electrolytes are outlined, which can promisingly render the practical applications of lithium metal batteries.

Keywords： high-concentration electrolyte localized high-concentration electrolyte lithium metal battery solid electrolyte interphase

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Numerical simulation of laminar premixed combustion in a porous burner

ZHAO Pinghui, CHEN Yiliang, LIU Minghou, DING Min, ZHANG Genxuan

Frontiers in Energy 2007, Volume 1, Issue 2, Pages 233-238 doi: 10.1007/s11708-007-0032-8

Abstract: The interphase heat transfer between a gas mixture and a porous medium becomes dominant in the premixed

Keywords： interphase mixture dominant Premixed combustion premixed combustion

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Recent advances toward high voltage, EC-free electrolytes for graphite-based Li-ion battery

Tong Zhang, Elie Paillard

Frontiers of Chemical Science and Engineering 2018, Volume 12, Issue 3, Pages 577-591 doi: 10.1007/s11705-018-1758-z

Abstract: concentration, but also reports on graphite protection strategies, by coatings or artificial solid electrolyte interphase

Keywords： lithium-ion electrolyte solid electrolyte interphase additives high voltage graphite

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Ion conduction path in composite solid electrolytes for lithium metal batteries: from polymer rich to ceramic rich

Zhouyu ZHANG, Hao CHEN, Zhenglin HU, Shoubin ZHOU, Lan ZHANG, Jiayan LUO

Frontiers in Energy 2022, Volume 16, Issue 5, Pages 706-733 doi: 10.1007/s11708-022-0833-9

Abstract: Solid-state electrolytes (SSEs) can address the safety issue of organic electrolyte in rechargeable lithium batteries. Unfortunately, neither polymer nor ceramic SSEs used alone can meet the demand although great progress has been made in the past few years. Composite solid electrolytes (CSEs) composed of flexible polymers and brittle but more conducting ceramics can take advantage of the individual system for solid-state lithium metal batteries (SSLMBs). CSEs can be largely divided into two categories by the mass fraction of the components: “polymer rich” (PR) and “ceramic rich” (CR) systems with different internal structures and electrochemical properties. This review provides a comprehensive and in-depth understanding of recent advances and limitations of both PR and CR electrolytes, with a special focus on the ion conduction path based on polymer-ceramic interaction mechanisms and structural designs of ceramic fillers/frameworks. In addition, it highlights the PR and CR which bring the leverage between the electrochemical property and the mechanical property. Moreover, it further prospects the possible route for future development of CSEs according to their rational design, which is expected to accelerate the practical application of SSLMBs.

Keywords： composite solid electrolytes active filler/framework ion conduction path interphase compatibility