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Multifunctional Dipoles Enabling Enhanced Ionic and Electronic Transport for High-Energy Batteries. [PDF]
Nanomicro LettCao S +6 more
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Advancements in biomass-derived single-metal-doped nanostructured carbon electrocatalysts and electrode materials for rechargeable zinc-air batteries. [PDF]
iScienceAlemu MA, Assegie AA.
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The overlooked yet critical role of catholyte composition in microbial electrosynthesis. [PDF]
Nat Communvan der Lee D +4 more
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Artificial interphase engineering to stabilize aqueous zinc metal anodes
Nanoscale, 2021In this mini-review, the state-of-the-art knowledge on the rational artificial interphase engineering of zinc metal anodes for high performance aqueous zinc ion batteries are presented.
Zichao Yan, Wenli Xin, Zhiqiang Zhu
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Sustainable Phytic Acid–Zinc Anticorrosion Interface for Highly Reversible Zinc Metal Anodes
ACS Applied Materials & Interfaces, 2022Although aqueous zinc-ion batteries (AZIBs) promise high capacity, low cost, and environmental friendliness, the Zn metal anode suffers from limited reversibility and unsatisfied lifespan arising from severe dendritic growth and inevitable interfacial corrosion.
Ying Zhang +6 more
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Optimizing Porous Metal–Organic Layers for Stable Zinc Anodes
ACS Applied Materials & Interfaces, 2023Aqueous zinc-ion batteries (ZIBs) have been considered as alternative stationary energy storage systems, but the dendrite and corrosion issues of Zn anodes hinder their practical applications. Here we report a series of two-dimensional (2D) metal-organic frameworks (MOFs) with Zr12 clusters, which act as artificial solid electrolyte interphase (SEI ...
Liling Lei +8 more
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Highly reversible zinc metal anode for aqueous batteries
Nature Materials, 2018Metallic zinc (Zn) has been regarded as an ideal anode material for aqueous batteries because of its high theoretical capacity (820 mA h g-1), low potential (-0.762 V versus the standard hydrogen electrode), high abundance, low toxicity and intrinsic safety.
Fei Wang +9 more
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Aluminum and Zinc Metal Anode Batteries
2021Aluminum and zinc metal are expected to be anode active materials with high volumetric capacity for future secondary batteries. Theoretical volumetric capacities for Al and Zn are 5854 and 8046 mAh cm−3, respectively. These metal anodes are usually handled in the Lewis acid-base type ionic liquid (IL) electrolytes with Al or Zn salts, e.g., AlCl3–1 ...
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