High Energy Batteries (India) Limited is an established manufacturer of Hi-Tech batteries for use in Army, Navy, Airforce and Launch Vehicles and also commercial batteries for Auto and Standby VRLA applications. The Company also exports products to various countries. Read More Vision To excel ...
High Energy Batteries India上季度的 每股净营运资本净额(nnwc)为13.41。. 查看High Energy Batteries India Ltd的每股净营运资本净额(NNWC)趋势、图表等
Maret 2020至 2024的财年,High Energy Batteries India的未调整ebitda中值为294.8百万。 过去5年,High Energy Batteries India的未调整ebitda在Maret 2023达到了 316.9百万的峰值。 High Energy Batteries India的未调整ebitda于Maret 2020触及5年低点,是154.7百万。 High Energy Batteries India的未调整ebitda于2022 (294...
相比竞争对手,High Energy Batteries India的下修每股收益的分析师比率,最近90天基准如何? 我们发现下列公司与High Energy Batteries India Ltd相近,它们都属于相关的行业。我们还考虑了规模、增长和各种财务指标,并将列表缩小到以下范围。 High Energy Batteries India的下修每股收益的分析师比率,最近90天基准 名称代码...
High Energy Batteries India的平均价格/现金及短期投资(5年)是544.3x. 查看High Energy Batteries India Ltd的平均价格/现金及短期投资(5年)趋势、图表等
High Energy Batteries India的经营所得现金复合年均增长率(10年)无意义。在计算变动时,我们检测到最新值是负值,导致计算已无意义。. 查看High Energy Batteries India Ltd的经营所得现金复合年均增长率(10年)趋势、图表等
High-performance Na-ion capacitor (NIC) was constructed with graphite recovered from spent Li-ion batteries (LIBs) as battery-type negative electrode and high-surface-area activated carbon as a supercapacitor component. Unlike Li-insertion into graphite, Na-insertion into graphite is extremely limited...
Nature Energy volume 9, pages 386–400 (2024)Cite this article 21k Accesses 129 Citations 20 Altmetric Metrics details Abstract Solid polymers are promising electrolytes for Li-metal batteries, but they have limitations: they cannot simultaneously achieve high ionic conductivity, good mechanical ...
The rechargeable lithium metal battery has attracted wide attention as a next-generation energy storage technology. However, simultaneously achieving high cell-level energy density and long cycle life in realistic batteries is still a great challenge. Here we investigate the degradation mechanisms of Li...
Despite considerable efforts to stabilize lithium metal anode structures and prevent dendrite formation, achieving long cycling life in high-energy batteries under realistic conditions remains extremely difficult due to a combination of complex failure modes that involve accelerated anode degradation and the ...