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ZMGI-Sulfide Electrolyte Series 1

 

ZMGI-Sulfide Electrolyte Series 2

 

All-Solid-State batteries

 

       Metal ion batteries have been widely exploited as advanced energy storage devices for various applications such as portable electronics and electric vehicles. Current commercial metal ion batteries, however, are exposed to potential safety hazards owing to the use of flammable liquid organic electrolytes. Most recent major incidents of fires due batteries were caused by ignition of the liquid electrolyte as a result of overcharging or operational misuse. Great efforts have therefore been directed towards the development of fundamentally safe technological solutions using solid inorganic electrolytes.

 

 

 

 

 

Patent applications :

 

[1](CN 107403955 A) A kind of double anti-perovskite SSE and its preparation method.

[2](CN 106684441 A) A kind of  phosphorus-sulfur SSE and its preparation method.

[3](CN 106848391A) A kind of SSE for Li-ion batteries and its preparation method.

[4](CN 108448166 A) A kind of double anti-perovskite SSE for Na-ion batteries and its preparation method.

 

 

 

 

All-solid-state batteries

 

 

 

 

 

Publications :

 

6.Stable all-solid-state battery enabled with Li6.25PS5.25Cl0.75 as fast ion-conducting electrolyte. Journal of Energy Chemistry 2021, 53, 147–154.

5.Integrated Structural Design of Polyaniline-Modified Nitrogen-Doped Hierarchical Porous Carbon Nanofibers as Binder-Free Electrodes toward All-Solid-State Flexible Supercapacitors. Applied Surface Science, 2020, 501, 144001.1-144001.9.

4.A designer fast Li-ion conductor Li6.25PS5.25Cl0.75 and its contribution to the polyethylene oxide based electrolyte. Applied Surface Science 2019, 493, 1326–1333.

3.Lithium Ion Conductivity in Double Antiperovskite Li6.5OS1.5I1.5: Alloying and Boundary Effects. ACS Appl. Energy Mater. 2019, 2, 6288−6294.

2.Surficial Structure Retention Mechanism for LiNi0.8Co0.15Al0.05O2 in a Full Gradient Cathode. ACS Appl. Mater. Interfaces 2019, 11, 31991−31996.

1.Synergistic effect of cation ordered structure and grain boundary engineering on long-term cycling of Li0.35La0.55TiO3-based solid batteries. Journal of the European Ceramic Society 2019, 39, 3332–3337