Harnessing the power of porosity: Advancing aqueous zinc-ion batteries and large-scale energy storage

https://techxplore.com/news/2024-09-harnessing-power-porosity-advancing-aqueous.html

"structural orderliness enhances performance... porous structures provide numerous nucleation sites, reducing nuclear energy barriers, mitigate localized charge accumulation, suppressing dendrites, ensuring longer battery lifespan... uniform electric field distribution/ homogeneous ion flux, crucial for stable zinc deposition/ stripping... accommodates volume changes/ deposition stress... various fabrication techniques: etching, self-assembly, laser lithography, electrochemical, 3D printing"

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Producing future low-cost, aqueous zinc-ion batteries for sustainable, large-scale energy storage

https://techxplore.com/news/2024-09-future-aqueous-zinc-ion-batteries.html

Team presents VO₂@VS₂ one-step hydrothermal synthesis for stable and highly efficient Zn-ion storage

https://phys.org/news/2024-09-team-vovs-hydrothermal-synthesis-stable.html