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Article
Chemistry, Multidisciplinary
Xinliang Li et al.
Summary: Using MXene materials as an artificial layer can induce uniform zinc deposition, leading to an extended lifespan of the zinc anode. Among different terminations, Cl termination is found to be more effective in regulating zinc ion diffusion.
Article
Chemistry, Physical
Jiaxian Zheng et al.
Summary: This study demonstrates that a TiN protective coating with preferential (200) orientation can effectively suppress Zn dendritic growth and side reactions, while regulating the growth pattern of the byproduct. This provides a new pathway for achieving high-efficiency reversible Zn plating/stripping.
ACS ENERGY LETTERS
(2022)
Article
Chemistry, Multidisciplinary
Lin Hong et al.
Summary: The formation of Zn4SO4(OH)6middot5H2O byproducts is closely related to the direct contact between the Zn electrode and SO42-/H2O. A cation-exchange membrane of PFSA coated on the Zn surface can regulate the Zn plating/stripping behavior, resulting in a highly reversible process with corrosion-free and dendrite-free behavior.
Article
Chemistry, Multidisciplinary
Huili Peng et al.
Summary: By intercalating n-butylamine into monodisperse hexagonal nanoplates of alpha-ZrP, the compatibility with hydrophobic polymers is improved, resulting in a dense and robust artificial layer on the zinc anode. This reduces direct exposure to electrolytes and suppresses side reactions, leading to improved electrochemical performance.
ENERGY & ENVIRONMENTAL SCIENCE
(2022)
Article
Chemistry, Physical
Hao Jia et al.
Summary: Aqueous Zn-based energy storage devices (ZESDs) are considered promising candidates for large-scale energy storage applications due to their low cost, inherent safety, and environmental friendliness. However, one drawback of ZESDs is the inadequate performance of pristine Zn anodes caused by detrimental dendrite formation and side reactions. In this work, a novel boron nitride nano-scale interface (BN@Zn) was established for an ultra-stable and wide temperature range tolerant anode. The introduction of BN layers enhanced the Zn deposition kinetics for a wide temperature application range and effectively mitigated dendritic growth, resulting in improved reaction kinetics and electrochemical stability of the Zn anode.
Article
Chemistry, Physical
Yujin Ren et al.
Summary: Flexible zinc-ion batteries have rapidly developed in recent years as an essential branch of flexible energy storage devices. This study successfully utilized 3D printing technology to create flexible aqueous micro-ZIBs, demonstrating their stability and potential.
Review
Chemistry, Physical
Penggao Liu et al.
Summary: The emerging battery technologies are being intensively studied, but the lack of ideal electrode materials remains a key hindrance to further development. The unique structural characteristics and physicochemical properties of MXene enable it to enhance the electrochemical performance of electrodes and have potential for diverse applications in battery systems. Recent progress in the research of zinc-ion energy storage using MXenes has explored MXene-based cathodes, MXene-derived cathodes, MXene-modified zinc anodes, and electrolyte additives, as well as further structural design and reaction mechanisms.
Article
Chemistry, Physical
G. B. Oliveira-Filho et al.
Summary: Core-shell structure Au@Fe3O4 nanoparticles were synthesized using a thermal decomposition method, with a core diameter of approximately 10.5 nm and a shell thickness of roughly 1.85 nm. The nanocomposite exhibited a successful coupling of Au and Fe3O4, possessing good crystal structure and magnetic response characteristics.
APPLIED SURFACE SCIENCE
(2021)
Article
Engineering, Environmental
Yi Qian et al.
Summary: A 3D flexible MXene@Au host has been designed to address the issue of lithium dendrite growth in lithium metal batteries, showing significantly improved performance with high capacity retention even after 200 cycles.
CHEMICAL ENGINEERING JOURNAL
(2021)
Correction
Chemistry, Physical
Huibo Yan et al.
ADVANCED ENERGY MATERIALS
(2021)
Article
Chemistry, Physical
Jiawei Wang et al.
Summary: The research summarized above categorizes and reviews strategies to address challenges related to zinc metal anodes for rechargeable aqueous zinc ion batteries. By focusing on electrochemical and chemical reaction principles, the study aims to provide insights into improving the performance of these batteries and explores prospects for the development of zinc metal anodes.
ENERGY STORAGE MATERIALS
(2021)
Article
Chemistry, Physical
Yuan Tian et al.
Summary: By designing and growing multifunctional uniform antimony nanoarrays on Ti3C2Tx MXene paper, this study demonstrates the feasibility of antimony as an alloying-type Zn storage anode and provides an effective approach to suppress Zn dendrites.
ENERGY STORAGE MATERIALS
(2021)
Article
Multidisciplinary Sciences
Zhen Hou et al.
Summary: The study successfully achieved dendrite-free zinc morphologies and superior cycling stability under high current densities and large cycling capacities by regulating the separator's interfacial chemistry through tin coating. This approach suppressed dendrite initiation and ensured smooth zinc metal deposition, offering a promising route to overcome challenges associated with metal anodes.
NATURE COMMUNICATIONS
(2021)
Article
Chemistry, Physical
Hee Jung Chang et al.
Summary: The study demonstrates that using sodium carboxymethyl cellulose (CMC) binder significantly improves the electrochemical performance of Zn/MnO2 aqueous batteries, offering desirable adhesion, wettability, and chemical stability.
Article
Chemistry, Multidisciplinary
Longsheng Cao et al.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
(2020)
Article
Chemistry, Physical
Yanhui Cui et al.
ENERGY STORAGE MATERIALS
(2020)
Article
Chemistry, Inorganic & Nuclear
Cuiping Wu et al.
DALTON TRANSACTIONS
(2020)
Article
Chemistry, Physical
Aolin Xia et al.
APPLIED SURFACE SCIENCE
(2019)
Article
Chemistry, Physical
Mangwei Cui et al.
ACS APPLIED ENERGY MATERIALS
(2019)