Studies from Nanjing Forestry University in the Area of Rare Metals Reported (Monothetic and Conductive Network and Mechanical Stress Releasing Layer On Micron-silicon Anode Enabling Highenergy Solid-state Battery)

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Studies from Nanjing Forestry University in the Area of Rare Metals Reported (Monothetic and Conductive Network and Mechanical Stress Releasing Layer On Micron-silicon Anode Enabling Highenergy Solid-state Battery)

机译：南京林业大学在稀有金属领域的研究报道（微米硅阳极上的单体和导电网络和机械应力释放层，使高能固态电池成为可能）

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2024 JAN 12 (VerticalNews) - By a News Reporter-Staff News Editor at Mining Minerals - Investigators publish new report on Rare Metals. According to news reporting originating in Nanjing, People's Republic of China, by VerticalNews journalists, research stated, “Silicon has ultrahigh capacity, dendrite-free alloy lithiation mechanism and low cost and has been regarded as a promising anode candidate for solid-state battery. Owing to the low infiltration of solid-state electrolyte (SSE), not the unstable solid-electrolyte interphase (SEI), but the huge stress during lithiation- and delithiation-induced particle fracture and conductivity lost tend to be the main issues.”

机译：2024 年 1 月 12 日（VerticalNews） - 由采矿与矿产的新闻记者兼新闻编辑撰写 - 调查人员发布了关于稀有金属的新报告。据VerticalNews记者发自中华人民共和国南京的新闻报道，研究称，“硅具有超高容量、无枝晶合金锂化机理和低成本，被认为是固态电池的有前途的阳极候选者。由于固态电解质（SSE）的低渗透性，不是不稳定的固态电解质界面（SEI），而是锂化和脱锂过程中的巨大应力引起的颗粒断裂和电导率损失往往是主要问题。

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《Mining & Minerals》 |2024年第12期|82-82|共1页
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1. Studies from Nanjing Forestry University in the Area of Rare Metals Reported (Monothetic and Conductive Network and Mechanical Stress Releasing Layer On Micron-silicon Anode Enabling Highenergy Solid-state Battery) [J] . Mining & Minerals Daily . 2024,第10期

机译：南京林业大学在稀有金属领域的研究报道（微米硅阳极上的单体和导电网络和机械应力释放层，使高能固态电池成为可能）
2. Investigators from Nanjing Forestry University Have Reported New Data on Rare Metals (Liquid Metal Welding Enabling High Loading Binder/carbon-free Layered Oxide Cathode Toward Highperformance Liquid and Solid-state Battery) [J] . Mining & Minerals Daily . 2023,第6期

机译：南京林业大学的研究人员报告了有关稀有金属的新数据（液态金属焊接使高性能液体和固态电池的高负载粘合剂/无碳层状氧化物阴极成为可能）
3. Investigators from Nanjing Forestry University Have Reported New Data on Rare Metals (Liquid Metal Welding Enabling High Loading Binder/carbon-free Layered Oxide Cathode Toward High-performance Liquid and Solid-state Battery) [J] . Mining & Minerals . 2023,第14期

机译：南京林业大学的研究人员报告了有关稀有金属的新数据（液态金属焊接使高性能液态和固态电池的高负载粘合剂/无碳层状氧化物阴极成为可能）

Studies from Nanjing Forestry University in the Area of Rare Metals Reported (Monothetic and Conductive Network and Mechanical Stress Releasing Layer On Micron-silicon Anode Enabling Highenergy Solid-state Battery)

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