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These include: (a) lithium-ion, lithium-air, lithium-sulfur, and sodium-ion rechargeable batteries; (b) electrochemical super-capacitors; and (c) cathode, anode, and electrolyte materials for these systems.. These include: (a) lithium-ion, lithium-air, lithium-sulfur, and sodium-ion rechargeable batteries; (b) electrochemical super-capacitors; and (c) cathode, anode, and electrolyte materials for these systems.. NLR is researching advanced electrochemical energy storage systems, including redox flow batteries and solid-state batteries. Electrochemical energy storage systems face evolving requirements. Electric vehicle applications require batteries with high energy density and fast-charging capabilities.. The rapid advancement of technology and the growing need for energy storage solutions have led to unprecedented research in the field of metal-ion batteries. This perspective article provides a detailed exploration of the latest developments and future directions in energy storage, particularly. . But here's the kicker: mainstream electrochemical energy storage already powers your smartphone, electric car, and even that quirky solar-powered garden gnome your neighbor insists on displaying. This article cuts through the jargon to explore how these battery technologies are reshaping our energy. . We focus our research on both fundamental and applied problems relating to electrochemical energy storage systems and materials. It also explores the integration.