![]() The escalating demand for energy systems and transitory fossil fuel sources has driven the call for high energy storage devices. It is of great importance to analyze dendrite suppression within a pragmatic framework with synergy in order to discover a unique solution to ensure the viability of present (Li) and future-generation batteries (Na and K) for commercial use. We discuss the feasible solutions to mitigate the dendrites, as well as their pros and cons, highlighting future research directions. ![]() In detail, we address the challenges associated with battery breakdown, including the underlying mechanism of dendrite generation and swelling. This review article explores recent advances in alleviating metal dendrites in battery systems, specifically alkali metals. ![]() However, it is essential to identify the dynamics and mechanism of protrusion outgrowth. The progression of a protrusion relies on a number of in situ and ex situ factors that can be evaluated theoretically through modeling or via laboratory experimentation. These protuberances expand continuously during the cyclic processes, extending through the separator sheath and leading to electrical shorting. One critical impediment is the budding and extension of solid protuberances on the anodic surface, which hinders the cell functionalities. ![]() However, they are subject to several issues limiting their utilization. Metal-ion batteries are capable of delivering high energy density with a longer lifespan.
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