Add to ORKGNanoparticulate electrodes, such as Li x FePO4, have unique advantages over their microparticulate counterparts for the applications in Li-ion batteries because of the shortened diffusion path and access to nonequilibrium routes for fast Li incorporation, thus radically boosting power density of the electrodes. However, how Li intercalation occurs locally in a single nanoparticle of such materials remains unresolved because real-time observation at such a fine scale is still lacking. We report visualization of local Li intercalation via solid-solution transformation in individual Li x FePO4 nanoparticles, enabled by probing sub-angstrom changes in the lattice spacing in situ. The real-time observation reveals inhomogeneous intercalation, ac...
An electrochemical investigation has been undertaken into the dependence of particle size on the mec...
The chemical phase distribution in hydrothermally grown micrometric single crystals of LiFePO<sub>4<...
The performance of battery electrode materials is strongly affected by inefficiencies in utilization...
Nanoparticulate electrodes, such as Li x FePO4, have unique advantages over their microparticulate c...
Nanoparticulate electrodes, such as LixFePO4, have unique advantages over their microparticulate cou...
International audienceLithium iron phosphate is one of the most promising positive-electrode materia...
Phase transitions in Li-ion electrode materials during (dis)charge are decisive for battery performa...
A spectral smoothed boundary phase-field model is implemented to study lithium (Li) intercalation in...
Electrochemical reactions within Li-ion batteries occur far from equilibrium and are accompanied by ...
The kinetics and uniformity of ion insertion reactions at the solid-liquid interface govern the rate...
The intercalation pathway of lithium iron phosphate (LFP) in the positive electrode of a lithium-ion...
Nanostructured LiFePO<sub>4</sub> (LFP) electrodes have attracted great interest in the Li-ion batte...
Because of its surface sensitivity, X-ray photoelectron spectroscopy allowed us to access the mechan...
The performance of battery electrode materials is strongly affected by inefficiencies in utilization...
© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. The energy density of current batteries is li...
An electrochemical investigation has been undertaken into the dependence of particle size on the mec...
The chemical phase distribution in hydrothermally grown micrometric single crystals of LiFePO<sub>4<...
The performance of battery electrode materials is strongly affected by inefficiencies in utilization...
Nanoparticulate electrodes, such as Li x FePO4, have unique advantages over their microparticulate c...
Nanoparticulate electrodes, such as LixFePO4, have unique advantages over their microparticulate cou...
International audienceLithium iron phosphate is one of the most promising positive-electrode materia...
Phase transitions in Li-ion electrode materials during (dis)charge are decisive for battery performa...
A spectral smoothed boundary phase-field model is implemented to study lithium (Li) intercalation in...
Electrochemical reactions within Li-ion batteries occur far from equilibrium and are accompanied by ...
The kinetics and uniformity of ion insertion reactions at the solid-liquid interface govern the rate...
The intercalation pathway of lithium iron phosphate (LFP) in the positive electrode of a lithium-ion...
Nanostructured LiFePO<sub>4</sub> (LFP) electrodes have attracted great interest in the Li-ion batte...
Because of its surface sensitivity, X-ray photoelectron spectroscopy allowed us to access the mechan...
The performance of battery electrode materials is strongly affected by inefficiencies in utilization...
© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. The energy density of current batteries is li...
An electrochemical investigation has been undertaken into the dependence of particle size on the mec...
The chemical phase distribution in hydrothermally grown micrometric single crystals of LiFePO<sub>4<...
The performance of battery electrode materials is strongly affected by inefficiencies in utilization...