Healable and conductive sulfur iodide for solid-state Li-S batteries
The design of this conductive, low-melting-point sulfur iodide material represents a substantial advancement in the chemistry of sulfur materials, and opens the door to the practical
Healable Cathode Could Unlock Potential of Solid
UC San Diego engineers developed a cathode material for lithium-sulfur (Li-S) batteries that is healable and highly conductive, overcoming longstanding challenges of traditional sulfur cathodes. The advance holds
Healable and conductive sulfur iodide for solid-state Li–S batteries
The Actions of Iodide and TSH on Thyroid Cells Showing a Dual Control System for the Iodide Pump Controlled generation of highly saddled (porphyrinato)iron (iii) iodide, tri
Healable cathode makes solid-state Li-S batteries a
Researchers developed a new cathode material for solid-state lithium-sulfur batteries that is electrically conductive and structurally healable, features that overcome the limitations of these batteries'' current cathodes.
Nature 重磅:用于固态锂硫电池的可愈合和导电碘化硫
最近,一项研究在Nature杂志上发表了题为"Healable and conductive sulfur iodide for solid-state Li–S batteries"的论文,研究人员报道了一种新型材料S9.3I,该材料结构中插入
Researchers develop healable and conductive sulfur iodide
A team led by engineers at the University of California San Diego developed a new cathode material for solid-state lithium-sulfur batteries that is electrically conductive and
Nature:导电硫-碘正极用于固态锂-硫电池的修复
因此,该新型S9.3I正极材料的发现,为发展高比能固态锂-硫电池提供了新思路。 图2. S9.3I正极在固态电池中的工作机制 Healable and conductive sulfur iodide for solid-state
Healable and Conductive Sulfur Iodide for Solid-State Li-S Batteries
The design of this conductive, low melting-point sulfur iodide material represents a substantial advancement in the chemistry of S materials, and opens the door to the practical
Healable cathode could unlock potential of solid-state lithium-sulfur
Engineers developed a cathode material for lithium-sulfur (Li-S) batteries that is healable and highly conductive, overcoming longstanding challenges of traditional sulfur
Healable and conductive sulfur iodide for solid-state Li–S batteries
The design of this conductive, low-melting-point sulfur iodide material represents a substantial advancement in the chemistry of sulfur materials, and opens the door to the
Sulfur Iodide Paves the Way for Cheaper, ''Healable'' Vehicle Batteries
By adding iodine (I) to a solid-state lithium sulfur (Li-S) battery (SSLSB), scientists yielded vastly improved conductivity and a low melting point that promotes self-repair
三院院士孙学良,发表Nature新子刊!指引未来固态锂硫发展之路
加拿大西安大略大学与宁波东方理工学院(暂名)孙学良,王长虹团队联合美国加利福尼亚大学洛杉矶分校李煜章团队通过探讨固态硫的底层氧化还原机制,提供了全固态Li
Sulfur Iodide Paves the Way for Cheaper, ''Healable'' Vehicle
By adding iodine (I) to a solid-state lithium sulfur (Li-S) battery (SSLSB), scientists yielded vastly improved conductivity and a low melting point that promotes self-repair
Healable and conductive sulfur iodide for solid-state Li–S batteries
As a result, an Li-S 9.3 I battery demonstrates 400 stable cycles with a specific capacity retention of 87%. The design of this conductive, low-melting-point sulfur iodide
Healable and conductive sulfur iodide for solid-state
The design of this conductive, low-melting-point sulfur iodide material represents a substantial advancement in the chemistry of sulfur materials, and opens the door to the practical realization of SSLSBs.
<br>用于固态锂硫电池的可修复导电碘化硫,Nature
Healable and conductive sulfur iodide for solid-state Li–S batteries Solid-state Li–S batteries (SSLSBs) are made of low-cost and abundant materials free of supply chain concerns. Owing to their high theoretical energy densities, they
Healable and conductive sulfur iodide for
Solid-state Li-S batteries (SSLSBs) are made of low-cost and abundant materials free of supply chain concerns. Owing to their high theoretical energy densities, they are highly desirable for
Healable and conductive sulfur iodide for solid-state Li–S batteries
Solid-state Li-S batteries (SSLSBs) are made of low-cost and abundant materials free of supply chain concerns. Owing to their high theoretical energy densities, they
Healable and conductive sulfur iodide for solid-state Li-S batteries
As a result, an Li-S<SUB>9.3</SUB>I battery demonstrates 400 stable cycles with a specific capacity retention of 87%. The design of this conductive, low-melting-point sulfur iodide
具有导电和界面修复功能的硫碘正极材料实现固态锂硫
固态锂硫电池电化学性能测试分析表明,在电化学循环过程中,S 9.3 I正极相较于元素S正极展现了更高的比容量、更低的过电位以及更好的氧化还原
Nature 重磅:用于固态锂硫电池的可愈合和导电碘化硫
该论文报道了一种新型材料S9.3I,具有高电导率和低熔点,可通过周期性熔化修复电池损伤,促进多硫化物形成。该材料在Li-S9.3I电池中展示了高能量密度和长期稳定性,为
Doubling Electric Vehicle Range: New Lithium-Sulfur
Researchers at the University of California San Diego have developed a new cathode material for solid-state lithium-sulfur batteries that significantly improves their electrical conductivity and self-healing properties.
具有导电和界面修复功能的硫碘正极材料实现固态锂硫
美国加州大学圣地亚哥分校刘平教授课题组设计了具有导电和界面修复功能的新型S 9.3 I正极材料,突破了固态锂硫电池瓶颈难题,实现了高倍率以及长循环稳定的固态锂硫电池器件。该材料通过碘分子嵌入硫空位的晶体结
Healable and conductive sulfur iodide for solid-state Li–S batteries
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具有导电和界面修复功能的硫碘正极材料实现固态锂硫
相关研究成果以"Healable and conductive sulfur iodide for solid-state Li-S batteries"为题,发表在2024年3月6日的 Nature 期刊上,论文通讯作者是刘平教授与Shyue
Researchers develop healable and conductive sulfur
A team led by engineers at the University of California San Diego developed a new cathode material for solid-state lithium-sulfur batteries that is electrically conductive and structurally healable—features that overcome the
Healable and conductive sulfur iodide for solid-state Li–S batteries
As a result, an Li–S 9.3 I battery demonstrates 400 stable cycles with a specific capacity retention of 87%. The design of this conductive, low-melting-point sulfur iodide material represents a
Healable and conductive sulfur iodide for solid-state Li–S batteries
已完结 文献求助详情 标题 Healable and conductive sulfur iodide for solid-state Li–S batteries 固态锂硫电池用可愈合导电碘化硫 相关领域 硫黄 固态 导电体 碘化物 能量密度
具有导电和界面修复功能的硫碘正极材料实现固态锂硫电池新突破
固态锂硫电池电化学性能测试分析表明,在电化学循环过程中,S 9.3 I正极相较于元素S正极展现了更高的比容量、更低的过电位以及更好的氧化还原
Healable Sulfur Cathode for Solid-State Li-S Batteries
Manas'' final work on "Healable and conductive sulfur iodide for solid-state Li–S batteries" is now out in Nature! This work is a collaboration between Prof Ping Liu''s group and