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"Metal organic framework-based cathode materials for aqueous zinc-ion b" by Xiudong Chen, Jin Hang Liu et al.

With the widespread use of lithium-ion batteries (LIBs) in recent decades, lithium resources are at risk of depletion. Electrochemical energy storage using LIBs cannot keep pace with socioeconomic development. Therefore, it is necessary to develop electrochemical systems capable of storing large amounts of energy in the future to replace LIBs. As a result of their environmental friendliness, low cost, and high safety, aqueous zinc-ion batteries (AZIBs) are potential replacements for LIBs. Several challenges remain for the commercialization of AZIBs, however, such as the development of high-performance cathodes. In recent years, metal-organic frameworks (MOFs) and related materials have evolved into potential cathode materials for AZIBs due to their high porosities, tunable structures, and multifunctionality. Hence, this review summarizes the latest progress in MOF-based cathode materials for AZIBs. We present and discuss different types of MOF-based electrode materials (vanadium/mangan ....

Aqueous Zinc Ion Batteries , Cathode Materials , Design Strategies , Metal Organic Framework ,

"Regulating interfacial ion migration with pillar effect in layer-by-la" by Feier Niu, Yueyuan Mao et al.

Two-dimensional (2D) layered materials have promising prospects for Zn-storage due to their flexible and adjustable interlayer architecture. The strong electrostatic interaction and high diffusion energy barrier, however, lead to slow diffusion kinetics of Zn-ions between the 2D interfaces, limiting its widespread application. Herein, Ti3C2 MXene is introduced into the MoS2 interlayer by the "pillar effect" to assemble a layer-by-layer inter-embedded structure (L-MoS2/Ti3C2), which provides sufficient diffusion channels for Zn-ions. DFT computations and GITT confirm that the L-MoS2/Ti3C2 exhibits superior Zn-ions migration kinetics. Therefore, L-MoS2/Ti3C2 shows excellent long-term cycling stability (75.6% capacity retention after 7000 cycles at 15 A g-1) and glorious high-rate capability (107 mAh g-1 at 20 A g-1). In addition, the practical application of this material is demonstrated by evaluating the performance of L-MoS2/Ti3C2 in flexible quasi-solid-state aqueous zinc io ....

Aqueous Zinc Ion Batteries , Iffusion Kinetics , Flexible Battery , Xos 2 , Illared Structures ,

Novel strategy stabilizes zinc-ion batteries

According to research published in Advanced Functional Materials recently, a team led by Prof. HU Linhua. from Hefei Institutes of Physical Science (HFIPS), Chinese Academy of Science (CAS) found . ....

Yingke Ren , Hong Zhang , Tingting Wei , Zhaoqian Li , Daming Zhu , Yang Huang , Peng Tan , Unity Stacked , Stable Zinc , Advanced Functional Materials , Aqueous Zinc Ion Batteries , Zinc Ion Batteries ,

Density matters for better battery material performance

Zinc cheap, abundant, environmentally friendly may be the answer to better batteries, but there’s a major problem: Aqueous zinc ion batteries (AZIBs) cannot match lithium-ion batteries in term . ....

Jun Zhou , Cuiping Han , Meilin Li , Qingming Liu , Tengfei Zhang , Senlin Li , Fanbin Zeng , Shenzhen Institute Of Advanced Technology , Energy Materials , Chinese Academy Of Sciences , Institute Of Technology , Carbon Neutrality , Shenzhen Institute , Advanced Technology , Chinese Academy , Aqueous Zinc Ion Batteries , Zinc Ion Batteries , Covalent Organic Frameworks , Cathode Material ,

Sustainable zinc-ion batteries for the energy transition - Research project aims for rapid industrial implementation

Stationary energy storage systems aiming to relieve the public power grid during peak loads play an important role in the implementation the energy transition. Zinc-ion batteries have been the foc . ....

Energy Storage , Zinc Ion Batteries , Aqueous Zinc Ion Batteries , Battery Cells , Battery Technology ,