Visualizing the Sensitive Lithium with Atomic Precision: Cryogenic Electron Microscopy for Batteries
Published 2021 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Visualizing the Sensitive Lithium with Atomic Precision: Cryogenic Electron Microscopy for Batteries
Authors
Keywords
-
Journal
ACCOUNTS OF CHEMICAL RESEARCH
Volume 54, Issue 9, Pages 2088-2099
Publisher
American Chemical Society (ACS)
Online
2021-04-16
DOI
10.1021/acs.accounts.1c00120
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Rejuvenating dead lithium supply in lithium metal anodes by iodine redox
- (2021) Chengbin Jin et al. Nature Energy
- A Highly Reversible, Dendrite‐Free Lithium Metal Anode Enabled by a Lithium‐Fluoride‐Enriched Interphase
- (2020) Chunyu Cui et al. ADVANCED MATERIALS
- Water‐Stable Lithium Metal Anodes with Ultrahigh‐Rate Capability Enabled by a Hydrophobic Graphene Architecture
- (2020) Lei Dong et al. ADVANCED MATERIALS
- High Interfacial-Energy Interphase Promoting Safe Lithium Metal Batteries
- (2020) Sufu Liu et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Lithium whisker growth and stress generation in an in situ atomic force microscope–environmental transmission electron microscope set-up
- (2020) Liqiang Zhang et al. Nature Nanotechnology
- Biomacromolecules enabled dendrite-free lithium metal battery and its origin revealed by cryo-electron microscopy
- (2020) Zhijin Ju et al. Nature Communications
- An Anion‐Tuned Solid Electrolyte Interphase with Fast Ion Transfer Kinetics for Stable Lithium Anodes
- (2020) Zhenxing Wang et al. Advanced Energy Materials
- An ultrastable lithium metal anode enabled by designed metal fluoride spansules
- (2020) Huadong Yuan et al. Science Advances
- Advanced Liquid Electrolytes for Rechargeable Li Metal Batteries
- (2020) Yulin Jie et al. ADVANCED FUNCTIONAL MATERIALS
- Analyzing Energy Materials by Cryogenic Electron Microscopy
- (2020) Xiao-Chuan Ren et al. ADVANCED MATERIALS
- A Diffusion‐‐Reaction Competition Mechanism to Tailor Lithium Deposition for Lithium‐Metal Batteries
- (2020) Xiao‐Ru Chen et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Sulfur‐Preloaded Double‐shelled C@MoS2 Structures As an Additive Reservoir for Stable Lithium Metal Anodes
- (2020) Xiong-Wen (David) Lou ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Opportunities for Cryogenic Electron Microscopy in Materials Science and Nanoscience
- (2020) Yanbin Li et al. ACS Nano
- In Situ Construction of a LiF‐Enriched Interface for Stable All‐Solid‐State Batteries and its Origin Revealed by Cryo‐TEM
- (2020) Ouwei Sheng et al. ADVANCED MATERIALS
- Glassy Li metal anode for high-performance rechargeable Li batteries
- (2020) Xuefeng Wang et al. NATURE MATERIALS
- Molecular design for electrolyte solvents enabling energy-dense and long-cycling lithium metal batteries
- (2020) Zhiao Yu et al. Nature Energy
- A fast-ion conducting interface enabled by aluminum silicate fibers for stable Li metal batteries
- (2020) Zhijin Ju et al. CHEMICAL ENGINEERING JOURNAL
- In-situ construction of a Mg-modified interface to guide uniform lithium deposition for stable all-solid-state batteries
- (2020) Tiefeng Liu et al. Journal of Energy Chemistry
- Silicious nanowires enabled dendrites suppression and flame retardancy for advanced lithium metal anodes
- (2020) Yujing Liu et al. Nano Energy
- Wrinkled Graphene Cages as Hosts for High-Capacity Li Metal Anodes Shown by Cryogenic Electron Microscopy
- (2019) Hansen Wang et al. NANO LETTERS
- Self-Suppression of Lithium Dendrite in All-Solid-State Lithium Metal Batteries with Poly(vinylidene difluoride)-Based Solid Electrolytes
- (2019) Xue Zhang et al. ADVANCED MATERIALS
- Bulk Nanostructured Materials Design for Fracture-Resistant Lithium Metal Anodes
- (2019) Shan Liu et al. ADVANCED MATERIALS
- Temperature-Dependent Nucleation and Growth of Dendrite-Free Lithium Metal Anodes
- (2019) Kang Yan et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Diatomite derived hierarchical hybrid anode for high performance all-solid-state lithium metal batteries
- (2019) Fei Zhou et al. Nature Communications
- Improving cyclability of Li metal batteries at elevated temperatures and its origin revealed by cryo-electron microscopy
- (2019) Jiangyan Wang et al. Nature Energy
- Initial Steps in PEO Decomposition on a Li Metal Electrode
- (2019) Amina Mirsakiyeva et al. Journal of Physical Chemistry C
- Quantifying inactive lithium in lithium metal batteries
- (2019) Chengcheng Fang et al. NATURE
- Monolithic solid–electrolyte interphases formed in fluorinated orthoformate-based electrolytes minimize Li depletion and pulverization
- (2019) Xia Cao et al. Nature Energy
- Dendrites in Lithium Metal Anodes: Suppression, Regulation, and Elimination
- (2019) Xinyue Zhang et al. ACCOUNTS OF CHEMICAL RESEARCH
- Normalized Lithium Growth from the Nucleation Stage for Dendrite-Free Lithium Metal Anodes
- (2019) Nan Li et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Li4SiO4-Based Artificial Passivation Thin Film for Improving Interfacial Stability of Li Metal Anodes
- (2018) Ji Young Kim et al. ACS Applied Materials & Interfaces
- Mg2B2O5 Nanowire Enabled Multifunctional Solid-State Electrolytes with High Ionic Conductivity, Excellent Mechanical Properties, and Flame-Retardant Performance
- (2018) Ouwei Sheng et al. NANO LETTERS
- Self-heating–induced healing of lithium dendrites
- (2018) Lu Li et al. SCIENCE
- Metal oxide nanoparticles induced step-edge nucleation of stable Li metal anode working under an ultrahigh current density of 15 mA cm −2
- (2018) Chengbin Jin et al. Nano Energy
- Fast ion transport at solid–solid interfaces in hybrid battery anodes
- (2018) Zhengyuan Tu et al. Nature Energy
- A “cation-anion regulation” synergistic anode host for dendrite-free lithium metal batteries
- (2018) Weidong Zhang et al. Science Advances
- Cryo-STEM mapping of solid–liquid interfaces and dendrites in lithium-metal batteries
- (2018) Michael J. Zachman et al. NATURE
- Controlling Nucleation in Lithium Metal Anodes
- (2018) Xuze Guan et al. Small
- Engineering stable interfaces for three-dimensional lithium metal anodes
- (2018) Jin Xie et al. Science Advances
- In Situ Solid Electrolyte Interphase from Spray Quenching on Molten Li: A New Way to Construct High-Performance Lithium-Metal Anodes
- (2018) Sufu Liu et al. ADVANCED MATERIALS
- Stable metal battery anodes enabled by polyethylenimine sponge hosts by way of electrokinetic effects
- (2018) Guoxing Li et al. Nature Energy
- Interfacial Chemistry in Solid-State Batteries: Formation of Interphase and Its Consequences
- (2017) Shaofei Wang et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Solid-State Lithium–Sulfur Batteries Operated at 37 °C with Composites of Nanostructured Li7La3Zr2O12/Carbon Foam and Polymer
- (2017) Xinyong Tao et al. NANO LETTERS
- Cryo-electron microscopy wins chemistry Nobel
- (2017) Daniel Cressey et al. NATURE
- Reviving the lithium metal anode for high-energy batteries
- (2017) Dingchang Lin et al. Nature Nanotechnology
- Atomic structure of sensitive battery materials and interfaces revealed by cryo–electron microscopy
- (2017) Yuzhang Li et al. SCIENCE
- Organosulfide-plasticized solid-electrolyte interphase layer enables stable lithium metal anodes for long-cycle lithium-sulfur batteries
- (2017) Guoxing Li et al. Nature Communications
- 3D lithium metal embedded within lithiophilic porous matrix for stable lithium metal batteries
- (2017) Chengbin Jin et al. Nano Energy
- Selective deposition and stable encapsulation of lithium through heterogeneous seeded growth
- (2016) Kai Yan et al. Nature Energy
- A Primer to Single-Particle Cryo-Electron Microscopy
- (2015) Yifan Cheng et al. CELL
- Interconnected hollow carbon nanospheres for stable lithium metal anodes
- (2014) Guangyuan Zheng et al. Nature Nanotechnology
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started