Guiding the design of heterogeneous electrode microstructures for Li‐ion batteries: microscopic imaging, predictive modeling, and machine learning
Electrochemical and mechanical properties of lithium‐ion battery materials are heavily
dependent on their 3D microstructure characteristics. A quantitative understanding of the …
dependent on their 3D microstructure characteristics. A quantitative understanding of the …
Computational insights into ionic conductivity of transition metal electrode materials for metal-ion batteries-A review
Charge/discharge rates and low-temperature performance of metal-ion batteries are strongly
affected by the ionic conductivity of transition metal intercalation materials used in …
affected by the ionic conductivity of transition metal intercalation materials used in …
Kinetic limitations in single‐crystal high‐nickel cathodes
High‐nickel cathodes attract immense interest for use in lithium‐ion batteries to boost Li‐
storage capacity while reducing cost. For overcoming the intergranular‐cracking issue in …
storage capacity while reducing cost. For overcoming the intergranular‐cracking issue in …
Energy storage through intercalation reactions: electrodes for rechargeable batteries
Electrochemical energy storage has been an important enabling technology for modern
electronics of all kinds, and will grow in importance as more electric vehicles and grid-scale …
electronics of all kinds, and will grow in importance as more electric vehicles and grid-scale …
Intercalation kinetics in multiphase-layered materials
Many intercalation compounds possess layered structures or interpenetrating lattices that
enable phase separation into three or more stable phases, or “stages,” driven by competing …
enable phase separation into three or more stable phases, or “stages,” driven by competing …
Rate Dependent Performance Related to Crystal Structure Evolution of Na0.67Mn0.8Mg0.2O2 in a Sodium-Ion Battery
N Sharma, N Tapia-Ruiz, G Singh… - Chemistry of …, 2015 - ACS Publications
Sodium-ion batteries are considered as a favorable alternative to the widely used lithium-ion
batteries for applications such as grid-scale energy storage. However, to meet the energy …
batteries for applications such as grid-scale energy storage. However, to meet the energy …
Entering Voltage Hysteresis in Phase‐Separating Materials: Revealing the Electrochemical Signature of the Intraparticle Phase‐Separated State
Hysteresis is a general phenomenon regularly observed in various materials. Usually,
hysteretic behavior is an intrinsic property that cannot be circumvented in the nonequilibrium …
hysteretic behavior is an intrinsic property that cannot be circumvented in the nonequilibrium …
Explaining key properties of lithiation in -anatase Li-ion battery electrodes using phase-field modeling
The improvement of Li-ion battery performance requires development of models that capture
the essential physics and chemistry in Li-ion battery electrode materials. Phase-field …
the essential physics and chemistry in Li-ion battery electrode materials. Phase-field …
Deformation and stresses in solid-state composite battery cathodes
Differences in thermal contraction/expansion and volume changes during discharge/charge
cycles lead to internal stresses that ultimately cause degradation of solid-state composite …
cycles lead to internal stresses that ultimately cause degradation of solid-state composite …
The Microscopic Mechanism of Lithiation and Delithiation in the Ag/C Buffer Layer for Anode‐Free Solid‐State Batteries
Lithium metal solid‐state batteries (LMSSBs) have demonstrated their high energy density
and cycling performance at high current densities in an anode‐free architecture, featuring a …
and cycling performance at high current densities in an anode‐free architecture, featuring a …