☆ 4.8 Review

Interfacial Modification, Electrode/Solid-Electrolyte Engineering, and Monolithic Construction of Solid-State Batteries

ELECTROCHEMICAL ENERGY REVIEWS (2023)

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Correction Nanoscience & Nanotechnology

Improving Fast and Safe Transfer of Lithium Ions in Solid-State Lithium Batteries by Porosity and Channel Structure of Polymer Electrolyte (vol 13, pg 48525, 2021)

Libo Li et al.

ACS APPLIED MATERIALS & INTERFACES (2023)

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Article Chemistry, Physical

Ultrathin MoS2 nanosheets anchored on carbon nanofibers as free-standing flexible anode with stable lithium storage performance

Mingzhen Gao et al.

Summary: The study demonstrated a flower-like architecture material as a free-standing anode for lithium-ion batteries, showing excellent flexibility, high discharge capacity, and outstanding capacity retention rate at high current density. The flexible anode exhibited superior stability and performance, making it suitable for wearable electronic devices.

JOURNAL OF ALLOYS AND COMPOUNDS (2022)

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Article Chemistry, Multidisciplinary

Hierarchical Composite-Solid-Electrolyte with High Electrochemical Stability and Interfacial Regulation for Boosting Ultra-Stable Lithium Batteries

Jianqi Sun et al.

Summary: This study utilizes a hierarchical composite solid electrolyte structure to address the challenges of low ionic conductivity and severe polarization in solid-state electrolytes, achieving high ionic conductivity and high voltage compatibility. This innovative electrolyte design enhances the performance stability of solid-state batteries, showing great potential for future development in the field of solid-state metal batteries.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Materials Science, Ceramics

Construction of pseudocapacitive Li2-xLaxZnTi3O8 anode for fast and super-stable lithium storage

Zhongxue Zhang et al.

Summary: By utilizing La-doped LL5ZTO as the anode and active carbon (AC) as the cathode, a high-performance lithium-ion capacitor (LIC) is constructed, showing good lithium storage performance, high energy density, and power density. The capacity retention rate of the LIC is over 90% after 3000 cycles, indicating its potential for advanced energy storage devices.

CERAMICS INTERNATIONAL (2021)

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Article Multidisciplinary Sciences

Molecular grafting towards high-fraction active nanodots implanted in N-doped carbon for sodium dual-ion batteries

Sainan Mu et al.

Summary: A sodium-based dual-ion battery anode with high capacity, excellent rate performance, and cycling stability has been successfully developed using a molecular grafting strategy. Pairing this anode with an environmentally friendly graphite cathode results in an outstanding sodium-based battery system.

NATIONAL SCIENCE REVIEW (2021)

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Review Chemistry, Multidisciplinary

Recent Advances and Perspectives on Calcium-Ion Storage: Key Materials and Devices

Bifa Ji et al.

Summary: The development of cost-effective energy storage devices has driven the exploration of beyond-lithium energy storage systems, with calcium-ion batteries (CIBs) emerging as a promising option due to abundant resources and high energy density potential. However, their performance needs improvement. Multi-ion strategies show promise in achieving high-performance room temperature CIBs.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

A Multilayer Ceramic Electrolyte for All-Solid-State Li Batteries

Jianxun Zhu et al.

Summary: The dual layer ceramic electrolyte of Ti-doped LLZTO/Ti-LLZTO and LLZTO shows improved interface structure and higher density, leading to enhanced interaction between Li-metal and electrolyte, reduction of interface resistance, and suppression of dendrite formation.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Article Chemistry, Multidisciplinary

Locally Ordered Graphitized Carbon Cathodes for High-Capacity Dual-Ion Batteries

Kai Yang et al.

Summary: This study proposes a strategy to enhance the energy density of dual-ion batteries (DIBs) by using locally ordered graphitized carbon (LOGC) cathodes. Quantum mechanical modeling suggests that LOGC can provide additional capacitive anion storage sites, allowing DIBs to exhibit good performance under high currents.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Article Engineering, Environmental

Chemical interface engineering of solid garnet batteries for long-life and high-rate performance

Weilin Huang et al.

Summary: The study addressed the crucial interfacial issues between solid electrolytes and electrodes in solid-state lithium batteries by introducing reactive intermediate layers, leading to improved battery performance. By converting the ether-based electrolyte layer to a gradient SEI film on the anode side and forming ionically conducting species on the cathode side, the modified cells exhibited dendrite-free Li plating/stripping and high discharge capacity, demonstrating a promising strategy for constructing high-performance solid garnet batteries.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Multidisciplinary Sciences

A flexible electron-blocking interfacial shield for dendrite-free solid lithium metal batteries

Hanyu Huo et al.

Summary: The high electronic conductivity of solid-state electrolytes leads to Li dendrite growth, thus hindering the commercialization of solid-state batteries. Here, the authors propose a flexible electron-blocking interface to protect garnet electrolytes from the electronic degradation.

NATURE COMMUNICATIONS (2021)

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Review Chemistry, Multidisciplinary

Critical Current Density in Solid-State Lithium Metal Batteries: Mechanism, Influences, and Strategies

Yang Lu et al.

Summary: Solid-state lithium metal batteries have gained attention for their improved safety and high energy density, but issues such as dendrite-induced short circuits and contact-loss-induced high impedance hinder practical applications. The critical current density (CCD) is crucial for SSLMBs and future research should focus on strategies to enhance CCD for practical use.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Review Chemistry, Multidisciplinary

A Review of Emerging Dual-Ion Batteries: Fundamentals and Recent Advances

Luojiang Zhang et al.

Summary: Dual-ion batteries (DIBs) show potential for high-efficiency energy storage beyond lithium-ion batteries due to advantages like high working voltage, material availability, low cost, and excellent safety. However, challenges remain in terms of limited capacity and cyclic stability, driving the need for suitable electrode materials and electrolytes with reversible capacities and oxidative stability for further development.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Interfacial Atomistic Mechanisms of Lithium Metal Stripping and Plating in Solid-State Batteries

Menghao Yang et al.

Summary: This study conducts atomistic modeling for lithium stripping and plating on solid electrolytes, observing the initiation of interface failure with the formation of nano-sized pores, and the effects of interface structures, lithium diffusion, adhesion energy, and applied pressure on interface failure during lithium cycling. The simulations map the parameter space of applied pressures and interfacial adhesion energies that inhibit interface failure, providing guidance for the selection of solid-state cells and predicting optimal solid interfaces for future research and development of solid-state Li-metal batteries.

ADVANCED MATERIALS (2021)

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Article Engineering, Environmental

Tuning a compatible interface with LLZTO integrated on cathode material for improving NCM811/LLZTO solid-state battery

Zhikun Zhao et al.

Summary: This research introduces a binder-like Li3PO4 through an in-situ calcination process to build a compatible and Li+-conductive self-integrated layer with LiNi0.8Co0.1Mn0.1O2 cathode material, improving the performance of LiNi0.8Co0.1Mn0.1O2/Li6.4La3Zr1.4Ta0.6O12 solid state batteries. Through interface engineering, the in-situ generated Li3PO4 tightly fixes Li6.4La3Zr1.4Ta0.6O12 on LiNi0.8Co0.1Mn0.1O2, demonstrating high initial discharge capacities and good retention rates under different conditions.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Chemistry, Physical

Linking void and interphase evolution to electrochemistry in solid-state batteries using operando X-ray tomography

John A. Lewis et al.

Summary: The study using operando synchrotron X-ray computed microtomography reveals the evolution of lithium/solid-state electrolyte interfaces during battery cycling, showing how void formation, interphase growth, and volumetric changes affect cell behavior. Loss of contact at the interface between lithium and the solid-state electrolyte is found to be the primary cause of cell failure, while redox-active interphase and global volume changes upon charge also play significant roles in determining cell performance. These findings provide insights into the impact of chemo-mechanical phenomena on cell behavior, aiding in the development of solid-state batteries.

NATURE MATERIALS (2021)

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Article Chemistry, Physical

Modulating Nanoinhomogeneity at Electrode-Solid Electrolyte Interfaces for Dendrite-Proof Solid-State Batteries and Long-Life Memristors

Ziheng Lu et al.

Summary: The issue of dendrite penetration in ceramic lithium conductors for solid-state batteries was investigated, and an in situ nanoscopic electrochemical characterization technique was developed to reveal local dendrite growth kinetics. By designing an ionic-conductive polymeric homogenizing layer, high critical current density and low interfacial resistance were achieved, providing opportunities for the application of solid electrolytes.

ADVANCED ENERGY MATERIALS (2021)

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Article Chemistry, Multidisciplinary

In Situ Polymerization Permeated Three-Dimensional Li+-Percolated Porous Oxide Ceramic Framework Boosting All Solid-State Lithium Metal Battery

Yiyuan Yan et al.

Summary: The integrated strategy proposed in this study can guide the preparation of highly conductive solid electrolytes and compatible interface designs to enhance the performance of practical high-energy-density all solid-state lithium metal batteries.

ADVANCED SCIENCE (2021)

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Review Energy & Fuels

Processing thin but robust electrolytes for solid-state batteries

Moran Balaish et al.

Summary: This review critically discusses the research status of high-energy-density solid-state batteries, focusing on cost-effective processing and the integration of solid electrolyte materials. The future design of SSBs should consider capturing the thermal processing budget and stability of the oxide solid electrolyte phase.

NATURE ENERGY (2021)

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Article Chemistry, Multidisciplinary

Facile Design of Sulfide-Based all Solid-State Lithium Metal Battery: In Situ Polymerization within Self-Supported Porous Argyrodite Skeleton

Yantao Wang et al.

Summary: All solid-state batteries have great potential for safe and high-energy electrochemical storage. The ionic conductivity of electrolytes and their compatibility with electrodes are crucial for determining the electrochemical performance of these batteries. By using an integrated strategy that addresses these issues, a high-performance all solid-state lithium metal battery with a LiNi0.8Mn0.1Co0.1O2 cathode has been developed, demonstrating high Coulombic efficiency exceeding 99% at room temperature.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Electrochemistry

Litchi-like structured MnCo2S4@C as a high capacity and long-cycling time anode for lithium-ion batteries

Wengang Yan et al.

Summary: Ternary transition metal sulfides, such as MnCo2S4@C with a litchi-like structure, show promising potential for energy storage applications. The novel design exhibits excellent lithium ion storage performance, cycling stability, and rate capability, suggesting significant implications for advancements in alkali metal ion batteries in the grid-scale energy storage field.

ELECTROCHIMICA ACTA (2021)

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Article Multidisciplinary Sciences

A dynamic stability design strategy for lithium metal solid state batteries

Luhan Ye et al.

Summary: A multi-layered electrolyte design can inhibit the growth of lithium dendrites in solid-state lithium metal batteries, improving their performance. However, practical challenges remain in realizing a lithium metal anode for batteries.

NATURE (2021)

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Article Chemistry, Physical

Solid-state rigid-rod polymer composite electrolytes with nanocrystalline lithium ion pathways

Ying Wang et al.

Summary: The proposed stable solid-state polymer composite electrolyte shows promise for addressing the key challenge of electrolyte compatibility with high-energy-density electrodes in the next generation of lithium-based batteries. This electrolyte possesses outstanding Li+ conductivity and electrochemical stability, potentially enabling safe and high-energy-density energy storage and conversion applications.

NATURE MATERIALS (2021)

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Article Chemistry, Physical

Deciphering Interfacial Chemical and Electrochemical Reactions of Sulfide-Based All-Solid-State Batteries

Changhong Wang et al.

Summary: The interfacial resistance in sulfide electrolyte-based all-solid-state lithium batteries is a major challenge, caused by oxygen loss from oxide cathodes oxidizing the electrolyte and inducing structural changes. High operating voltages also create non-oxygen species. Coating strategies are effective in mitigating some issues but not all.

ADVANCED ENERGY MATERIALS (2021)

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Article Energy & Fuels

Semi-solid alkali metal electrodes enabling high critical current densities in solid electrolyte batteries

Richard J. -Y. Park et al.

Summary: The critical current densities of pure metals in the Li-Na-K system scale inversely to mechanical deformation resistance. Two electrode architectures with a liquid phase have been demonstrated to enable high current densities while maintaining the advantages of solid electrodes.

NATURE ENERGY (2021)

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Article Chemistry, Physical

Ultra-low LPS/LLZO interfacial resistance - towards stable hybrid solid-state batteries with Li-metal anodes

Juliane Huettl et al.

Summary: To enable solid-state batteries with Li metal anodes, different classes of electrolytes including polymers, oxides, and sulfides are being investigated. Hybrid bilayer cells with layers of different electrolyte materials are considered promising, with optimizations like surface treatments reducing interfacial resistance between the promising electrolytes Al-LLZO and LPS. Cycling tests using Li-metal electrodes show excellent stability and negligible degradation, indicating potential for solid-state batteries with hybrid LPS/LLZO electrolytes.

ENERGY STORAGE MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Smart Construction of an Intimate Lithium | Garnet Interface for All-Solid-State Batteries by Tuning the Tension of Molten Lithium

Mingjie Du et al.

Summary: Garnet electrolytes show great promise in all-solid-state lithium batteries, but poor contact with Li-metal anodes remains a major challenge.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Stable Interface Chemistry and Multiple Ion Transport of Composite Electrolyte Contribute to Ultra-long Cycling Solid-State LiNi0.8Co0.1Mn0.1O2/Lithium Metal Batteries

Ke Yang et al.

Summary: The ceramic-polymer-liquid composite electrolyte enables solid-state NCM811/Li batteries to cycle 1500 times, exhibiting superior performance at a wide temperature range.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Article Chemistry, Multidisciplinary

Double Ionic-Electronic Transfer Interface Layers for All-Solid-State Lithium Batteries

Jingang Zheng et al.

Summary: This study successfully reduced the interface resistance of solid-state lithium batteries by growing double ionic-electronic transfer interface layers at the electrode-electrolyte interfaces, achieving higher cycling stability and charge-discharge efficiency.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Editorial Material Materials Science, Ceramics

Lining up for better performance: Researchers tailor interfaces in solid-state batteries

[Anonymous]

AMERICAN CERAMIC SOCIETY BULLETIN (2021)

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Article Chemistry, Physical

Local electronic structure variation resulting in Li 'filament' formation within solid electrolytes

Xiaoming Liu et al.

Summary: Solid electrolytes show promise for Li metal anodes, but Li infiltration along grain boundaries can lead to battery failure due to its association with local electronic band structure. Optimization of grain-boundary electronic conductivity is crucial for future solid-state battery design.

NATURE MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Recent Advances and Perspectives on the Polymer Electrolytes for Sodium/Potassium-Ion Batteries

Hang Yin et al.

Summary: This article thoroughly discusses the electrolyte selection for SIBs/KIBs, with a focus on the advantages and mechanisms of PEs, showcasing the latest research progress on SIBs/KIBs based on PEs. Suggestions and perspectives for future research are also put forward.

SMALL (2021)

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Review Nanoscience & Nanotechnology

Tailoring inorganic-polymer composites for the mass production of solid-state batteries

Li-Zhen Fan et al.

Summary: Solid-state batteries are being revived as a safer and more energy-dense alternative to conventional Li-ion batteries, and the development of suitable solid electrolytes, such as inorganic-polymer composites, is crucial for their mass production. Various challenges in terms of processing technologies and integration into batteries need to be addressed for the successful implementation of inorganic-polymer composite electrolytes in solid-state batteries.

NATURE REVIEWS MATERIALS (2021)

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Article Nanoscience & Nanotechnology

Improving Fast and Safe Transfer of Lithium Ions in Solid-State Lithium Batteries by Porosity and Channel Structure of Polymer Electrolyte

Libo Li et al.

Summary: Solid polymer electrolytes with wrinkled microporous structure were developed by blending different polymers, which showed improved ionic conductivity and safety for solid-state lithium batteries. The unique structure was formed by solvent evaporation-induced self-wrinkling during the polymer film preparation process, facilitating lithium-ion transport and enhancing battery performance.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Review Materials Science, Multidisciplinary

Progress and perspective of Li1+ xAlxTi2-x(PO4)3 ceramic electrolyte in lithium batteries

Ke Yang et al.

Summary: LATP solid-state electrolyte shows high ionic conductivity and superior air stability, making it a promising candidate for high-energy-density lithium batteries. However, the high interfacial impedance with electrodes and side reactions with lithium metal limit its applications in all-solid-state batteries.

INFOMAT (2021)

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Article Chemistry, Physical

Revealing the role of the cathode-electrolyte interface on solid-state batteries

Beniamin Zahiri et al.

Summary: Interfaces play crucial roles in the performance of secondary solid-state batteries, and the crystallography and morphology of thick cathodes directly impact long-term performance. Minimizing interfacial area is key to understanding interface instabilities and improving cell performance. Dense and thick cathodes are suggested for increasing energy density and stability of solid-state batteries.

NATURE MATERIALS (2021)

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Review Electrochemistry

Electrolyte/Electrode Interfaces in All-Solid-State Lithium Batteries: A Review

Yuepeng Pang et al.

Summary: All-solid-state lithium batteries have great potential for higher energy density and safety, but the poor electrode compatibility of solid electrolytes may cause electrolyte/electrode interface degradation, leading to battery failure. Mechanistic analyses and strategies for enhancing electrolyte/electrode interfaces are crucial for the future development of these batteries.

ELECTROCHEMICAL ENERGY REVIEWS (2021)

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Review Electrochemistry

All-Solid-State Lithium Batteries with Sulfide Electrolytes and Oxide Cathodes

Jinghua Wu et al.

Summary: All-solid-state lithium batteries (ASSLBs) based on sulfide electrolytes and oxide cathodes have high safety and energy density, but face challenges such as stability of electrolytes, complex interfacial issues, and unstable electrode interfaces. Despite oxide cathodes being stable and industrialized, their compatibility with sulfide electrolytes presents a challenge for commercial use in ASSLBs.

ELECTROCHEMICAL ENERGY REVIEWS (2021)

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Review Chemistry, Multidisciplinary

Strategies towards Low-Cost Dual-Ion Batteries with High Performance

Xiaolong Zhou et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Chemistry, Multidisciplinary

Stable Thiophosphate-Based All-Solid-State Lithium Batteries through Conformally Interfacial Nanocoating

Daxian Cao et al.

NANO LETTERS (2020)

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Article Chemistry, Multidisciplinary

A Flexible Dual-Ion Battery Based on Sodium-Ion Quasi-Solid-State Electrolyte with Long Cycling Life

Donghao Xie et al.

ADVANCED FUNCTIONAL MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Tape-Casting Li0.34La0.56TiO3 Ceramic Electrolyte Films Permit High Energy Density of Lithium-Metal Batteries

Zhouyang Jiang et al.

ADVANCED MATERIALS (2020)

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Review Chemistry, Multidisciplinary

Electrochemical and Structural Analysis in All-Solid-State Lithium Batteries by Analytical Electron Microscopy: Progress and Perspectives

Chunchen Zhang et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Multidisciplinary

A Low-Cost and Environmentally Friendly Mixed Polyanionic Cathode for Sodium-Ion Storage

Tianyi Song et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Review Chemistry, Multidisciplinary

Recent Progress in Organic-Inorganic Composite Solid Electrolytes for All-Solid-State Lithium Batteries

Dechao Zhang et al.

CHEMISTRY-A EUROPEAN JOURNAL (2020)

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Achieving efficient and stable interface between metallic lithium and garnet-type solid electrolyte through a thin indium tin oxide interlayer

Jiatao Lou et al.

JOURNAL OF POWER SOURCES (2020)

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Review Chemistry, Multidisciplinary

Composition Modulation and Structure Design of Inorganic-in-Polymer Composite Solid Electrolytes for Advanced Lithium Batteries

Yuan Liu et al.

SMALL (2020)

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Review Chemistry, Multidisciplinary

Toward High-Energy-Density Lithium Metal Batteries: Opportunities and Challenges for Solid Organic Electrolytes

Xiaoen Wang et al.

ADVANCED MATERIALS (2020)

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Review Chemistry, Multidisciplinary

Mixed Polyanionic Compounds as Positive Electrodes for Low-Cost Electrochemical Energy Storage

Yuanqi Lan et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Chemistry, Multidisciplinary

Graphitic Carbon Nitride (g-C3N4): An Interface Enabler for Solid-State Lithium Metal Batteries

Ying Huang et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Materials Science, Ceramics

Rapid sintering method for highly conductive Li7La3Zr2O12 ceramic electrolyte

Li Yang et al.

CERAMICS INTERNATIONAL (2020)

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Article Chemistry, Multidisciplinary

Fast Li+ Conduction Mechanism and Interfacial Chemistry of a NASICON/Polymer Composite Electrolyte

Nan Wu et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2020)

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A fluoroxalate cathode material for potassium-ion batteries with ultra-long cyclability

Bifa Ji et al.

NATURE COMMUNICATIONS (2020)

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Article Chemistry, Physical

Unraveling the Intra and Intercycle Interfacial Evolution of Li6PS5Cl-Based All-Solid-State Lithium Batteries

Jun Zhang et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

A 3D Lithium/Carbon Fiber Anode with Sustained Electrolyte Contact for Solid-State Batteries

Ying Zhang et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

A Flexible Solid Electrolyte with Multilayer Structure for Sodium Metal Batteries

Wei Ling et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

Li2CO3: A Critical Issue for Developing Solid Garnet Batteries

Hanyu Huo et al.

ACS ENERGY LETTERS (2020)

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Designing solid-state electrolytes for safe, energy-dense batteries

Qing Zhao et al.

NATURE REVIEWS MATERIALS (2020)

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Prospects of organic electrode materials for practical lithium batteries

Yong Lu et al.

NATURE REVIEWS CHEMISTRY (2020)

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Fast Rate and Long Life Potassium-Ion Based Dual-Ion Battery through 3D Porous Organic Negative Electrode

Ao Yu et al.

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Tuning the Anode-Electrolyte Interface Chemistry for Garnet-Based Solid-State Li Metal Batteries

Tao Deng et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Multidisciplinary

In Situ Construction of An Ultra-Stable Conductive Composite Interface for High-Voltage All-Solid-State Lithium Metal Batteries

Kai Shi et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Garnet-Type Solid-State Electrolytes: Materials, Interfaces, and Batteries

Chengwei Wang et al.

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LiNbO3-coated LiNi0.8Co0.1Mn0.1O2 cathode with high discharge capacity and rate performance for all-solid-state lithium battery

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JOURNAL OF ENERGY CHEMISTRY (2020)

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Progress and Perspective of Ceramic/Polymer Composite Solid Electrolytes for Lithium Batteries

Song Li et al.

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Article Chemistry, Physical

Outstanding electrochemical performances of the all-solid-state lithium battery using Ni-rich layered oxide cathode and sulfide electrolyte

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JOURNAL OF POWER SOURCES (2020)

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Selectively Wetted Rigid-Flexible Coupling Polymer Electrolyte Enabling Superior Stability and Compatibility of High-Voltage Lithium Metal Batteries

Xinrun Yu et al.

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Reversible Short-Circuit Behaviors in Garnet-Based Solid-State Batteries

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Room temperature operation of all-solid-state battery using a closo-type complex hydride solid electrolyte and a LiCoO2 cathode by interfacial modification

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Eliminating the Detrimental Effects of Conductive Agents in Sulfide-Based Solid-State Batteries

Sixu Deng et al.

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Dynamics of the Garnet/Li Interface for Dendrite-Free Solid-State Batteries

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ACS ENERGY LETTERS (2020)

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Review Nanoscience & Nanotechnology

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NATURE NANOTECHNOLOGY (2020)

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Thiol-Branched Solid Polymer Electrolyte Featuring High Strength, Toughness, and Lithium Ionic Conductivity for Lithium-Metal Batteries

Hangchao Wang et al.

ADVANCED MATERIALS (2020)

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Highly Concentrated Electrolyte towards Enhanced Energy Density and Cycling Life of Dual-Ion Battery

Li Xiang et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Chemistry, Physical

Li2CO3 effects: New insights into polymer/garnet electrolytes for dendrite-free solid lithium batteries

Hanyu Huo et al.

NANO ENERGY (2020)

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Article Chemistry, Physical

Revealing the Impact of Space-Charge Layers on the Li-Ion Transport in All-Solid-State Batteries

Zhu Cheng et al.

JOULE (2020)

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Pseudocapacitive Ti-Doped Niobium Pentoxide Nanoflake Structure Design for a Fast Kinetics Anode toward a High-Performance Mg-Ion-Based Dual-Ion Battery

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Solid-State Electrolyte Design for Lithium Dendrite Suppression

Xiao Ji et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Physical

6.0 V High-Voltage and Concentrated Electrolyte toward High Energy Density K-Based Dual-Graphite Battery

Xiang Li et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

Rapid, high-temperature microwave soldering toward a high-performance cathode/electrolyte interface

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