Related references
Note: Only part of the references are listed.Layered Oxide Cathodes for Sodium-Ion Batteries: Phase Transition, Air Stability, and Performance
Peng-Fei Wang et al.
ADVANCED ENERGY MATERIALS (2018)
Dissolution, migration, and deposition of transition metal ions in Li-ion batteries exemplified by Mn-based cathodes - a critical review
Chun Zhan et al.
ENERGY & ENVIRONMENTAL SCIENCE (2018)
A Practicable Li/Na-Ion Hybrid Full Battery Assembled by a High-Voltage Cathode and Commercial Graphite Anode: Superior Energy Storage Performance and Working Mechanism
Jin-Zhi Guo et al.
ADVANCED ENERGY MATERIALS (2018)
Na+/vacancy disordering promises high-rate Na-ion batteries
Peng-Fei Wang et al.
SCIENCE ADVANCES (2018)
A Honeycomb-Layered Oxide Cathode for Sodium-Ion Batteries with Suppressed P3-O1 Phase Transition
Ya You et al.
ADVANCED ENERGY MATERIALS (2017)
Designing Air-Stable O3-Type Cathode Materials by Combined Structure Modulation for Na-Ion Batteries
Hu-Rong Yao et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2017)
Structurally modulated Li-rich cathode materials through cooperative cation doping and anion hybridization
Xu-Dong Zhang et al.
SCIENCE CHINA-CHEMISTRY (2017)
Special topic on electrochemical power sources
Yu-Guo Guo et al.
SCIENCE CHINA-CHEMISTRY (2017)
Excellent Comprehensive Performance of Na-Based Layered Oxide Benefiting from the Synergetic Contributions of Multimetal Ions
Hu-Rong Yao et al.
ADVANCED ENERGY MATERIALS (2017)
GO-induced preparation of flake-shaped Na3V2(PO4)3@rGO as high-rate and long-life cathodes for sodium-ion batteries
Feng Li et al.
JOURNAL OF MATERIALS CHEMISTRY A (2017)
Robust three-dimensional graphene skeleton encapsulated Na3V2O2(PO4)2F nanoparticles as a high-rate and long-life cathode of sodium-ion batteries
Yameng Yin et al.
NANO ENERGY (2017)
Honeycomb-Ordered Na3Ni1.5M0.5BiO6 (M = Ni, Cu, Mg, Zn) as High-Voltage Layered Cathodes for Sodium-Ion Batteries
Peng-Fei Wang et al.
ACS ENERGY LETTERS (2017)
Design and Comparative Study of O3/P2 Hybrid Structures for Room Temperature Sodium-Ion Batteries
Xingguo Qi et al.
ACS APPLIED MATERIALS & INTERFACES (2017)
P′2-Na2/3Mn0.9Me0.1O2 (Me = Mg, Ti, Co, Ni, Cu, and Zn): Correlation between Orthorhombic Distortion and Electrochemical Property
Shinichi Kumakura et al.
CHEMISTRY OF MATERIALS (2017)
Spinels: Controlled Preparation, Oxygen Reduction/Evolution Reaction Application, and Beyond
Qing Zhao et al.
CHEMICAL REVIEWS (2017)
Sodium-ion batteries: present and future
Jang-Yeon Hwang et al.
CHEMICAL SOCIETY REVIEWS (2017)
Ti-Substituted NaNi0.5Mn0.5-xTixO2 Cathodes with Reversible O3-P3 Phase Transition for High-Performance Sodium-Ion Batteries
Peng-Fei Wang et al.
ADVANCED MATERIALS (2017)
Multiangular Rod-Shaped Na0.44MnO2 as Cathode Materials with High Rate and Long Life for Sodium-Ion Batteries
Qiannan Liu et al.
ACS APPLIED MATERIALS & INTERFACES (2017)
Layered Na-Ion Cathodes with Outstanding Performance Resulting from the Synergetic Effect of Mixed P- and O-Type Phases
Marlou Keller et al.
ADVANCED ENERGY MATERIALS (2016)
High Voltage Mg-Doped Na0.67Ni0.3-xMgxMn0.7O2 (x=0.05, 0.1) Na-Ion Cathodes with Enhanced Stability and Rate Capability
Gurpreet Singh et al.
CHEMISTRY OF MATERIALS (2016)
New insights into designing high-rate performance cathode materials for sodium ion batteries by enlarging the slab-spacing of the Na-ion diffusion layer
Zheng-Yao Li et al.
JOURNAL OF MATERIALS CHEMISTRY A (2016)
An O3-type NaNi0.5Mn0.5O2 cathode for sodium-ion batteries with improved rate performance and cycling stability
Peng-Fei Wang et al.
JOURNAL OF MATERIALS CHEMISTRY A (2016)
Durable high-rate capability Na0.44MnO2 cathode material for sodium-ion batteries
Xin He et al.
NANO ENERGY (2016)
Prototype Sodium-Ion Batteries Using an Air-Stable and Co/Ni-Free O3-Layered Metal Oxide Cathode
Linqin Mu et al.
ADVANCED MATERIALS (2015)
A Layered P2-and O3-Type Composite as a High-Energy Cathode for Rechargeable Sodium-Ion Batteries
Shaohua Guo et al.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2015)
P2-type Na0.66Ni0.33-xZnxMn0.67O2 as new high-voltage cathode materials for sodium-ion batteries
Xuehang Wu et al.
JOURNAL OF POWER SOURCES (2015)
Mg-doping for improved long-term cyclability of layered Na-ion cathode materials - The example of P2-type NaxMg0.11Mn0.89O2
Daniel Buchholz et al.
JOURNAL OF POWER SOURCES (2015)
Ti-substituted tunnel-type Na0.44MnO2 oxide as a negative electrode for aqueous sodium-ion batteries
Yuesheng Wang et al.
NATURE COMMUNICATIONS (2015)
Designing an advanced P2-Na0.67Mn0.65Ni0.2Co0.15O2 layered cathode material for Na-ion batteries
Zheng-Yao Li et al.
JOURNAL OF MATERIALS CHEMISTRY A (2015)
Stable layered P3/P2 Na0.66Co0.5Mn0.5O2 cathode materials for sodium-ion batteries
Xiaoqing Chen et al.
JOURNAL OF MATERIALS CHEMISTRY A (2015)
A High-Energy Room-Temperature Sodium-Sulfur Battery
Sen Xin et al.
ADVANCED MATERIALS (2014)
Research Development on Sodium-Ion Batteries
Naoaki Yabuuchi et al.
CHEMICAL REVIEWS (2014)
Na0.67Mn1-xMgxO2 (0 ≤ x ≤ 0.2): a high capacity cathode for sodium-ion batteries
Juliette Billaud et al.
ENERGY & ENVIRONMENTAL SCIENCE (2014)
High Performance Na0.5[Ni0.23Fe0.13Mn0.63]O2 Cathode for Sodium-Ion Batteries
Ivana Hasa et al.
ADVANCED ENERGY MATERIALS (2014)
Layered P2/O3 Intergrowth Cathode: Toward High Power Na-Ion Batteries
Eungje Lee et al.
ADVANCED ENERGY MATERIALS (2014)
New O2/P2-type Li-Excess Layered Manganese Oxides as Promising Multi-Functional Electrode Materials for Rechargeable Li/Na Batteries
Naoaki Yabuuchi et al.
ADVANCED ENERGY MATERIALS (2014)