lithiated battery
锂電池
lithiated graphite
锂化石墨
lithiated material
锂化材料
scientists are developing new methods to lithiate silicon anodes for next-generation batteries.
科學家正在開發新的方法,用以對下一代電池的硅陽極進行鋰化。
the ability to lithiate graphite electrodes determines the battery's overall capacity.
對石墨電極進行鋰化的能⼒決定了電池的總容量。
engineers must carefully control the lithiation process to prevent structural damage.
工程師必須仔細控制鋰化過程,以防止結構損壞。
deeply lithiated materials often exhibit improved electrochemical performance.
深度鋰化的材料通常會表現出改進的電化學性能。
researchers discovered that partially lithiated compounds can enhance battery stability.
研究人員發現部分鋰化的化合物可以提高電池的穩定性。
the lithiation mechanism of transition metal oxides has been extensively studied.
過渡金屬氧化物的鋰化機制已經被廣泛研究。
novel electrolytes enable faster lithium insertion and delithiation processes.
新型電解質能夠實現更快的鋰離⼦嵌入和脫嵌過程。
temperature significantly affects how quickly a battery cell can be lithiated.
溫度會顯著影響電池單元鋰化的速度。
advanced characterization techniques help visualize the lithiation behavior at the atomic level.
先進的表征技術有助於在原子層面上視覺化鋰化行為。
the performance of lithium-ion batteries depends on how efficiently the cathode can be lithiated.
鋰離⼦電池的性能取決於陰極鋰化的效率。
scientists are exploring ways to lithiate sulfur-based materials for high-capacity batteries.
科學家正在探索對硫基材料進行鋰化的方法,以用於高容量電池。
understanding the lithiation-induced volume changes is crucial for battery design.
理解鋰化引起的體積變化對電池設計至關重要。
lithiated battery
锂電池
lithiated graphite
锂化石墨
lithiated material
锂化材料
scientists are developing new methods to lithiate silicon anodes for next-generation batteries.
科學家正在開發新的方法,用以對下一代電池的硅陽極進行鋰化。
the ability to lithiate graphite electrodes determines the battery's overall capacity.
對石墨電極進行鋰化的能⼒決定了電池的總容量。
engineers must carefully control the lithiation process to prevent structural damage.
工程師必須仔細控制鋰化過程,以防止結構損壞。
deeply lithiated materials often exhibit improved electrochemical performance.
深度鋰化的材料通常會表現出改進的電化學性能。
researchers discovered that partially lithiated compounds can enhance battery stability.
研究人員發現部分鋰化的化合物可以提高電池的穩定性。
the lithiation mechanism of transition metal oxides has been extensively studied.
過渡金屬氧化物的鋰化機制已經被廣泛研究。
novel electrolytes enable faster lithium insertion and delithiation processes.
新型電解質能夠實現更快的鋰離⼦嵌入和脫嵌過程。
temperature significantly affects how quickly a battery cell can be lithiated.
溫度會顯著影響電池單元鋰化的速度。
advanced characterization techniques help visualize the lithiation behavior at the atomic level.
先進的表征技術有助於在原子層面上視覺化鋰化行為。
the performance of lithium-ion batteries depends on how efficiently the cathode can be lithiated.
鋰離⼦電池的性能取決於陰極鋰化的效率。
scientists are exploring ways to lithiate sulfur-based materials for high-capacity batteries.
科學家正在探索對硫基材料進行鋰化的方法,以用於高容量電池。
understanding the lithiation-induced volume changes is crucial for battery design.
理解鋰化引起的體積變化對電池設計至關重要。
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