Lithium-sulfur boasts big advantage over Li-ion batteries
Read MoreScientists are working on ways to improve the power densities and charging rates of all-round batteries.
Read MoreDevelopers often moan that battery technology improvements are not keeping pace with product needs, but there’s a good reason for that
Read MoreDesign principles could point to better electrolytes for next-generation lithium batteries.
Read MoreDesigners of the lithium-ion battery took a cue from the mammalian spine to impart flexibility
Read MoreSolutions for Increased Battery Energy Utilization and High-Voltage Isolation Monitoring
Read MoreLS Mtron's Ultracapacitors
Read MoreBattery leverages both iron and oxygen to drive more lithium ions
Read MoreSendyne has released a new battery simulation tool to accelerate design of EVs and energy storage systems.
Read MoreInverted battery design allows electrons to be transported from the negative to the positive electrode while the ions flow through ionic cables and are transported externally to create a circuit of ions
Read MoreMonitoring of State of Charge (SOC) in Hybrid Electric Vehicle (HEV) batteries is important for maintaining operation of the battery within the manufacturer’s specifications for Depth of Discharge (DOD).
Read MoreOne of the main indicators of State of Health (SOH) in batteries is capacity fade.
Read MoreTradeoffs to consider when battery shopping
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