Eldho Edison scite author profile

The reversibility of metal anode is af undamental challenge to the lifetime of rechargeable batteries.T hough being widely employed in aqueous energy storage systems, metallic zinc suffers from dendrite formation that severely hinders its applications.H ere we report texturing Zn as an effective way to address the issue of zinc dendrite.Anin-plane oriented Zn texture with preferentially exposed (002) basal plane is demonstrated via as ulfonate anion-induced electrodeposition, noting no solid report on (002) textured Zn till now. Anion-induced reconstruction of zinc coordination is revealed to be responsible for the texture formation. Benchmarking against its (101) textured-counterpart by the conventional sulphate-based electrolyte,the Zn (002) texture enables highly reversible stripping/plating at ah igh current density of 10 mA cm À2 ,s howing its dendrite-free characteristics.T he Zn (002) texture-based aqueous zinc battery exhibits excellent cycling stability.T he developed anion texturing approach provides ap athwayt owards exploring zinc chemistry and prospering aqueous rechargeable batteries.

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Large-scale synthesis of highly uniform Fe 1−x S nanostructures as a high-rate anode for sodium ion batteries

Peng

Bucher³

et al. 2017

Nano Energy

174

111

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Modulation of Single Atomic Co and Fe Sites on Hollow Carbon Nanospheres as Oxygen Electrodes for Rechargeable Zn–Air Batteries

et al. 2020

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Efficient bifunctional electrocatalysts for oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) are required for metal air batteries, to replace costly metals, such as Pt and Ir/Ru based compounds, which are typically used as benchmarks for ORR and OER, respectively. Isolated single atomic sites coordinated with nitrogen on carbon supports (M‐N‐C) have promising performance for replacement of precious metal catalysts. However, most of monometallic M‐N‐C catalysts demonstrate unsatisfactory bifunctional performance. Herein, a facile way of preparing bimetallic Fe and Co sites entrapped in nitrogen‐doped hollow carbon nanospheres (Fe,Co‐SA/CS) is explored, drawing on the unique structure and pore characteristics of Zeolitic imidazole frameworks and molecular size of Ferrocene, an Fe containing species. Fe,Co‐SA/CS showed an ORR onset potential and half wave potential of 0.96 and 0.86 V, respectively. For OER, (Fe,Co)‐SA/CS attained its anodic current density of 10 mA cm–2 at an overpotential of 360 mV. Interestingly, the oxygen electrode activity (ΔE) for (Fe,Co)‐SA/CS and commercial Pt/C‐RuO2 is calculated to be 0.73 V, exhibiting the bifunctional catalytic activity of (Fe,Co)‐SA/CS. (Fe,Co)‐SA/CS evidenced desirable specific capacity and cyclic stability than Pt/C‐RuO2 mixture when utilized as an air cathode in a homemade Zinc‐air battery.

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Li-ion vs. Na-ion capacitors: A performance evaluation with coconut shell derived mesoporous carbon and natural plant based hard carbon

Jayaraman

Jain

Ulaganathan

et al. 2017

Chemical Engineering Journal

107

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Anion Texturing Towards Dendrite‐Free Zn Anode for Aqueous Rechargeable Batteries

et al. 2021

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The reversibility of metal anode is a fundamental challenge to the lifetime of rechargeable batteries. Though being widely employed in aqueous energy storage systems, metallic zinc suffers from dendrite formation that severely hinders its applications. Here we report texturing Zn as an effective way to address the issue of zinc dendrite. An in‐plane oriented Zn texture with preferentially exposed (002) basal plane is demonstrated via a sulfonate anion‐induced electrodeposition, noting no solid report on (002) textured Zn till now. Anion‐induced reconstruction of zinc coordination is revealed to be responsible for the texture formation. Benchmarking against its (101) textured‐counterpart by the conventional sulphate‐based electrolyte, the Zn (002) texture enables highly reversible stripping/plating at a high current density of 10 mA cm−2, showing its dendrite‐free characteristics. The Zn (002) texture‐based aqueous zinc battery exhibits excellent cycling stability. The developed anion texturing approach provides a pathway towards exploring zinc chemistry and prospering aqueous rechargeable batteries.

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Eldho Edison

Anion Texturing Towards Dendrite‐Free Zn Anode for Aqueous Rechargeable Batteries

Large-scale synthesis of highly uniform Fe 1−x S nanostructures as a high-rate anode for sodium ion batteries

Modulation of Single Atomic Co and Fe Sites on Hollow Carbon Nanospheres as Oxygen Electrodes for Rechargeable Zn–Air Batteries

Li-ion vs. Na-ion capacitors: A performance evaluation with coconut shell derived mesoporous carbon and natural plant based hard carbon

Anion Texturing Towards Dendrite‐Free Zn Anode for Aqueous Rechargeable Batteries

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