Electrochemically Responsive Self-Formed Li-ion Conductors for High Performance Li Metal Anodes | Zendy

Donghai Wang | Zendy; Tien Nhac Duong | Zendy

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Electrochemically Responsive Self-Formed Li-ion Conductors for High Performance Li Metal Anodes

Author(s) -

Donghai Wang,

Tien Nhac Duong

Publication year - 2019

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/1579536

Subject(s) - anode , materials science , electrical conductor , layer (electronics) , composite number , metal , fabrication , nanotechnology , conductivity , characterization (materials science) , chemical engineering , inorganic chemistry , composite material , electrode , chemistry , metallurgy , engineering , medicine , alternative medicine , pathology

Advanced Battery Material Research (BMR) Vehicle Technologies Office FY 18 Milestones: • Develop 2nd generation of organo-LixSy lithium protection layers with tuned functionality. • Demonstrate the uniform and dendritic Li deposition under the protection of 2nd generation organo-LixSy lithium layers. • Demonstrate Li anodes using the Li-ion conducting layer with ~99.2% CE for ~300 cycles at a rate of ~1.5 mA/cm2 and deposition amount of ~3 mAh/cm2. FY18 Deliverables: Demonstrate use of the protected Li anodes in Li-S battery cells. Funding: — FY17: $377,208; FY18: $379,773, FY19: $380,338 Electrochemically Responsive Self-Formed Li-ion Conductors for High Performance Li Metal Anodes

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