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Article
Engineering, Environmental
Xu Xie et al.
Summary: Bimetallic selenides with modified band structure were constructed to enhance the diffusion rate of sodium ions. The experimental results demonstrated that bimetallic selenides exhibited superior cycle and rate performance, and the in-situ testing and calculations revealed their reaction mechanisms.
CHEMICAL ENGINEERING JOURNAL
(2022)
Review
Materials Science, Multidisciplinary
Hamzeh Qutaish et al.
Summary: Lithium metal batteries have gained attention due to their high energy capacity. However, the dendritic growth of lithium hinders its practical application. This review discusses the failure mechanisms of lithium metal anode and the models describing its deposition and dendritic growth. Porous carbon-based frameworks are promising for resolving these issues.
SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS
(2022)
Article
Chemistry, Physical
Bo Liu et al.
Summary: Lithium-rich antiperovskite material Li3OCl shows great potential in all-solid-state lithium-ion batteries due to its unique ionic transport and phase stability. The systematic investigation using theoretical calculations provides insights into the properties of Li3OCl, guiding the design of high-performance solid-state electrolytes.
JOURNAL OF MATERIOMICS
(2022)
Article
Chemistry, Physical
Iftikhar Hussain et al.
Summary: In recent years, transition metal selenides have shown promising and tunable properties for various electrochemical applications, including supercapacitors, lithium-ion batteries, sodium-ion batteries, and water splitting.
ENERGY STORAGE MATERIALS
(2022)
Article
Chemistry, Physical
Jing Xu et al.
Summary: Simultaneously protecting the cathode and anode is crucial for practical lithium sulfur batteries. In this study, a new carrier structure was designed to protect both the sulfur cathode and lithium anode. The carrier structure exhibited superior electronic conductivity, polysulfide adsorption capacity, and catalytic activity for polysulfide redox, leading to improved cycle life and energy density of the Li-S batteries.
ENERGY STORAGE MATERIALS
(2022)
Editorial Material
Green & Sustainable Science & Technology
Christian Bauer et al.
Summary: Rechargeable batteries are expected to experience exponential growth in the next decade, thanks to the wider adoption of electric vehicles. An international expert panel has proposed a feasible pathway towards sustainable batteries, emphasizing the importance of vision, innovation, and practice.
NATURE SUSTAINABILITY
(2022)
Article
Nanoscience & Nanotechnology
Ziyu Chen et al.
Summary: This study demonstrates that tuning the decomposition of solvents provides a new approach to construct stable inorganic-rich solid electrolyte interphase (SEI) for practical Li-metal batteries, improving their performance.
ACS APPLIED MATERIALS & INTERFACES
(2022)
Article
Chemistry, Physical
Darshil Chodvadiya et al.
Summary: In this study, the applicability of the h-AlC monolayer as an anode material was investigated using first principles based density functional theory. It was found that the h-AlC monolayer exhibited excellent metallic behavior and high storage capacity for Li and Na ions. The diffusion barrier for Li and Na ions on the h-AlC monolayer was also found to be favorable. This research provides valuable experimental work for the future storage mechanisms of lithium-ion batteries and sodium-ion batteries.
APPLIED SURFACE SCIENCE
(2022)
Article
Engineering, Environmental
Wencheng Ma et al.
Summary: This study reveals, for the first time, the rationality of Li deposition beneath the chlorinated hybrid layer and fast ion transport kinetics at LiCl/Li interface through density functional theory estimation. An artificial SEI layer enriched with LiCl is constructed on lithium metal surface, which exhibits excellent cycle performance and lower overpotential.
CHEMICAL ENGINEERING JOURNAL
(2022)
Review
Engineering, Environmental
Encheng Huangzhang et al.
Summary: A localized high-concentration electrolyte (LHCE) with a uniform and robust LiF layer is developed to enhance the cycling lifespan and coulombic efficiency of lithium metal batteries (LMBs). The LHCE shows superior performance in terms of cycling lifespan and coulombic efficiency, providing a new solution to address the challenges in lithium-ion batteries.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Chemistry, Physical
Lirong He et al.
Summary: In this work, a novel anode material Ge/α-MnSe@CNFs, integrating germanium, alpha-MnSe, and carbon nanofibers, was synthesized. The material exhibited excellent performance with high capacity and cycling stability in lithium-ion batteries. This study provides a new preparation strategy for developing high-performance and long-life LIBs.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Chemistry, Physical
Anif Jamaluddin et al.
Summary: This study proposes a dual-functional coating layer for lithium metal batteries (LMBs), which improves the lithium deposition and the efficiency of the solid-electrolyte interphase (ASEI) by predepositing a fluorinated electrochemically exfoliated graphene (F-ECG) as a modifier on a working electrode. The half-cell exhibits good stability and high coulombic efficiency after 100 cycles. Additionally, the full-cell LMB also demonstrates excellent capacity retention.
Article
Engineering, Environmental
Yu-Jiao Zhang et al.
Summary: By modifying the separator with a Li+ contained fullerene derivative, C60-(OLi)n, the formation of dendrite structures at the Li-metal anode interface can be effectively suppressed, leading to improved cycle life and wider temperature range.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Chemistry, Physical
Qiuyang Ma et al.
Summary: This study designs an anode material consisting of a FeSe2 core and a nitrogen-doped carbon shell, which exhibits superior rate capability and long cycling performance. The material also alleviates volume variation during electrode cycling.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2022)
Article
Chemistry, Physical
Liu Wan et al.
Summary: Sluggish kinetics and poor structural stability are two main obstacles in the exploration of transition metal selenides (TMSs) for supercapacitors. In this study, a core-shell cobalt iron selenide (CoFe2Se4) @ cobalt nickel carbonate hydroxide (CoNi-CH) heterostructure was directly fabricated on carbon cloth. The heterostructure combines the highly conductive CoFe2Se4 for rapid electron transfer and the highly electroactive CoNi-CH for multiple redox reactions. The CoFe2Se4@CoNi-CH electrode exhibits increased specific capacity and enhanced rate capability compared to pure CoFe2Se4 and CoNi-CH. Furthermore, a hybrid supercapacitor utilizing the CoFe2Se4@CoNi-CH cathode and porous carbon anode achieves a high energy density and excellent durability.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2022)
Article
Physics, Condensed Matter
Abdullah Al Roman et al.
Summary: This study investigated the potential application of ScS2 monolayer as a cathode host material in ion-storage batteries. The results showed that ScS2 monolayer could be used in rechargeable Li, Na, and Ca ion-storage batteries with high specific capacities. It exhibited good electronic conductivity and fast diffusion kinetics for alkali metal ions, making it promising for ion-storage batteries with high specific capacity.
SOLID STATE COMMUNICATIONS
(2022)
Review
Chemistry, Physical
Chuanliang Wei et al.
Summary: Metal anodes are promising materials for rechargeable batteries, but they face challenges. Recently, room-temperature liquid metals have shown potential in addressing these challenges and have been the focus of research.
ENERGY STORAGE MATERIALS
(2022)
Article
Chemistry, Physical
Chun-Lei Song et al.
Summary: This research demonstrates that lithium dendrite-free lithium metal batteries with high rate performance and long cycling life can be achieved by using metal-organic frameworks (MOFs) with tailored structures and compositions. The Ce-MOF-1 membrane coating is found to effectively hinder the formation of lithium dendrites and form a stable lithium metal electrode.
JOURNAL OF MATERIALS CHEMISTRY A
(2022)
Article
Chemistry, Physical
Jun Pu et al.
Summary: The use of rigid boron nitride quantum dots to regulate the solid electrolyte interface in lithium metal batteries improves the stability and cycle performance of the batteries, while reducing dendrite formation.
JOURNAL OF MATERIALS CHEMISTRY A
(2022)
Review
Chemistry, Multidisciplinary
Mark A. Buckingham et al.
Summary: Metal oxides, sulphides, selenides and tellurides have wide-ranging applications in the fields of energy and catalysis. The recent development of high entropy inorganic materials, with their multi-component nature and high configurational entropy, has opened up new possibilities for diverse structures and properties. High entropy metal chalcogenides, including sulfides, selenides and tellurides, have been investigated for their potential in thermoelectric energy generation, energy storage batteries and electrocatalysis.
CHEMICAL COMMUNICATIONS
(2022)
Article
Chemistry, Physical
Xiaosong Xiong et al.
Summary: This study reports the construction of an AlN protection layer on the lithium metal interface to inhibit the growth of lithium dendrites, improving the performance of lithium batteries. The protection layer reduces the lithium diffusion barrier and enhances the lithium transfer kinetics, leading to uniform lithium deposition. This method also shows promising results for LiFePO4 and Li/S batteries, providing an important approach for the commercialization of lithium metal batteries.
JOURNAL OF MATERIALS CHEMISTRY A
(2022)
Article
Chemistry, Applied
Jingguang Yi et al.
Summary: A novel composite solid electrolyte based on sulfide and an artificial solid electrolyte interphase were developed to achieve high-performance all-solid-state lithium batteries, demonstrating high ionic conductivity, wide electrochemical window, and enhanced cycling stability.
JOURNAL OF ENERGY CHEMISTRY
(2021)
Article
Chemistry, Physical
Wenshan Xiao et al.
Summary: 2D metal chalcogenides, particularly SnSe and Ti-SnSe, show great potential as promising sulfur host materials for lithium-sulfur batteries, with enhanced adsorption capabilities and catalytic effects on conversion reactions for lithium polysulfides. The strong interaction between Ti-SnSe and LiPSs/S8, attributed to strong Ti-S bond and enhanced Sn-S bond, can greatly improve the performance of Li-S batteries.
APPLIED SURFACE SCIENCE
(2021)
Article
Computer Science, Interdisciplinary Applications
Vei Wang et al.
Summary: VASPKIT is a command-line program that provides a robust and user-friendly interface for high-throughput analysis of material properties. It consists of pre-and post-processing modules, can run on different platforms, and offers rich functionalities and a user-friendly interface.
COMPUTER PHYSICS COMMUNICATIONS
(2021)
Editorial Material
Green & Sustainable Science & Technology
Hooman Yaghoobnejad Asl et al.
Summary: A recent study has identified potential remedies for the rapid performance fading of rechargeable lithium-ion batteries based on manganese oxide electrode materials through interface engineering.
NATURE SUSTAINABILITY
(2021)
Review
Chemistry, Multidisciplinary
Peichao Zou et al.
Summary: This review explores the irregular plating issue associated with lithium metal anodes and the classification, initiation, and growth mechanisms of polymorphous lithium from the perspective of multiphysical fields. The impact of multiphysical fields' distribution and intensity on lithium plating behavior, as well as their connection with the electrochemical and metallurgical properties of lithium metal, are discussed, highlighting the need for further research on delaying/suppressing/ redirecting irregular lithium evolution to enhance stability and safety performance.
Article
Chemistry, Multidisciplinary
Hyunjung Park et al.
Summary: By growing nanostructured Li2Se on Li metal using chemical vapor deposition, this study demonstrates the protective effect of Li2Se layers on lithium anodes in all solid-state batteries, leading to significantly enhanced electrochemical performance of the batteries. The dual compatibility of Li2Se layers with Li metal and the sulfide electrolyte prevents undesirable side reactions and promotes homogeneous charge transfer during cycling.
Review
Chemistry, Physical
Qing Zhao et al.
Summary: The solid electrolyte interphase (SEI) is a chemically distinct material phase formed by a combination of electrochemical reduction and chemical reactions at both the explicit and implicit interfaces in all electrochemical cells. Understanding the structure, chemistry, and thermodynamics of the materials that accumulate in such interfacial material phases plays a crucial role in achieving high levels of anode reversibility in secondary batteries. Strategies focusing on the rational design of the SEI at metal anodes, including taking advantage of redox chemistry of electrolyte components and creating artificial SEI outside the cell, are highlighted in the study.
Article
Chemistry, Multidisciplinary
Shuaitong Liang et al.
Summary: By modulating the electronic structure, it is possible to alleviate internal strain caused by potassium ions and improve the structural stability of battery anodes, providing a new pathway towards highly stable potassium ion batteries.
Article
Chemistry, Multidisciplinary
Yong Ma et al.
Summary: The strategy of constructing an artificial solid-electrolyte interphase (SEI) of Li2Se on Li metal anodes through vapor-phase solid-gas reaction effectively inhibits lithium dendrite growth, resulting in superior cycling stability of the electrodes. Smooth and chunky Li deposition was achieved under high capacity and current density, while extending the cycling stability and energy efficiency of LiO2 batteries.
Article
Chemistry, Multidisciplinary
Anjun Hu et al.
Summary: An artificial hybrid SEI layer composed of lithium-antimony alloy and lithium fluoride was constructed to reduce electron tunneling between the Li anode and SEI, resulting in uniform Li deposition and stable Li plating/stripping behaviors at an ultrahigh rate. This work uncovers the internal mechanism of Li+ transport within the SEI component, providing a pathway to stabilize the Li anode under practical high-rate conditions.
ENERGY & ENVIRONMENTAL SCIENCE
(2021)
Review
Chemistry, Physical
Guangbin Hua et al.
Summary: Lithium-metal anode batteries have the potential to be next-generation high energy density batteries, but challenges such as safety concerns due to reactivity and dendrite growth hinder their application. Computational simulations reveal insights into organic-electrolyte interfacial reactions and the importance of solid electrolyte interface for stabilizing interfaces. The studies also focus on inhibiting lithium dendrite growth and exploring the use of solid-state electrolytes in lithium-ion batteries.
ACTA PHYSICO-CHIMICA SINICA
(2021)
Review
Materials Science, Multidisciplinary
Yiyao Han et al.
Summary: Lithium metal is considered one of the most promising materials for future high-energy-density storage systems, but its practical application is hindered by interfacial and air instabilities. Recent efforts have overcome many bottlenecks and accelerated the application of high-energy-density lithium metal batteries.
Review
Electrochemistry
Danmiao Kang et al.
Summary: This review summarizes recent works on artificial SEI and discusses the electrochemical performance of different components as interphase, aiming to inspire the study on designing and fabricating stable Li anode with robust interphase structure.
BATTERIES & SUPERCAPS
(2021)
Article
Multidisciplinary Sciences
Qi Zhang et al.
NATURE COMMUNICATIONS
(2020)
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Jun-Fan Ding et al.
Journal of Energy Chemistry
(2020)
Review
Materials Science, Multidisciplinary
Chao Ye et al.
Review
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Jingxu Zheng et al.
CHEMICAL SOCIETY REVIEWS
(2020)
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Jinguo Zhu et al.
ENERGY STORAGE MATERIALS
(2019)
Review
Materials Science, Multidisciplinary
Qiu He et al.
ENERGY & ENVIRONMENTAL MATERIALS
(2019)
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Rui Xu et al.
ADVANCED FUNCTIONAL MATERIALS
(2018)
Review
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Dingchang Lin et al.
NATURE NANOTECHNOLOGY
(2017)
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Da Li et al.
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