A Semiliquid Lithium Metal Anode analyze
TEM image of sub-micron lithium metal particle analyze using IPSDK Explorer.
TEM image of sub-micron lithium metal particles formed with 16% vol feed amount.
The aim of this research was to demonstrated a simple approach to create liquid-like lithium composite anode by dispersing in situ generated lithium microparticles in an electronically and ionically conductive liquid polymer composite. The flowable composite anode can work extremely stable with solid ceramic electrolyte because of the sufficient contact at the anode/electrolyte interface. The methodology presented here should help to develop safe high-energy-density rechargeable alkaline metal batteries.
TEM image of sub-micron lithium metal particle analyze using IPSDK Explorer
IPSDK Explorer was able to efficiently deblur these TEM images and segment all lithium particles through a machine learning approach, The model was built very simply with only a few marks positioned by the scientist on the particles to be detected.
TEM image of sub-micron lithium metal particles. Histogram of equivalent diameters..
More information concerning this study: https://www.cell.com/joule/pdfExtended/S2542-4351(19)30265-X