Simulated electrolyte-metal interfaces -- γ- Li 3 PO 4 and Li Xiao Xu, Yaojun Du and N.A.W. Holzwarth Introduction to Li-ion Batteries Project Motivation.

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Presentation transcript:

Simulated electrolyte-metal interfaces -- γ- Li 3 PO 4 and Li Xiao Xu, Yaojun Du and N.A.W. Holzwarth Introduction to Li-ion Batteries Project Motivation Model and Method of Calculation Results for geometry optimization and densities of states Conclusions and future work Supported by NSF grants DMR

Discharge operation of Li ion battery CathodeElectrolyte Anode Li + ee

Cathode materials Old technology: LiCoO 2 LiMn 2 O 4 LiNiO 2 New technology : LiFePO4 Store Li + ions and electrons in discharge mode Electrolyte materials Liquid solvent, gel, polymer And LiPF 6 or LiClO 4 Solid : LiPON, γ-Li 3 PO 4 Transport Li + ions Exclude electrons Anode materials Li Al alloy Li intercalated graphite Metal Li provide source of Li+ ions Make stable interface and electrons in discharge mode. Li ion battery components

CathodeElectrolyte Anode Li + ee This talk : What the interface would look like ?

Next talk : How Li would migrate with in the electrolyte CathodeElectrolyte Anode Li + ee

Motivation & Questions Motivation – LiPON 1 And Li 3 PO 4 –Why crystal ? Questions –What are the possible structures of an ideal Li 3 PO 4 – Li metal interface –Are the interfaces physically and chemically stable ? 1 LiPON materials are developed at Oak Ridge National Lab vacuumLi 3 PO 4 Li

Model & Method Of Calculation Model Started with ideal γ-Li 3 PO 4 crystal Constructed an ideal surface plane, assuming charge neutrality and keep all PO 4 bonds. Relax surface in vacuum Deposit a few layers of Li between electrolyte surface and vacuum Relax the structure Method of Caculation Plan wave basis with soft pseudo potentials and PAW (PWscf 1 code and PWPAW 2 code ) |k + K| 2 ≦ 30 Ryd Atomic positions relaxed until force components less than 3 ×10 -4 Ry/Bohr pwpaw.wfu.edu Li 3 PO 4 vacuum Li 3 PO 4 vacuum Li

Crystal structure of γ -Li 3 PO 4 (Pnma) a 2c 2b

Pure Crystal Partial DOS

Li γ- Li 3 PO 4 interface a-direction 2b a Relaxed Structure of γ-Li 3 PO 4 with vacuum Converged structure of Li- γ-Li 3 PO 4 interface 2c

Interface a-direction Partial Density Of States

Li-Li 3 PO 4 interface b-direction Relaxed Structure of γ-Li 3 PO 4 with vacuum 2b a 2c

Interface b-direction Partial Density Of States

Li-Li 3 PO 4 interface c-direction 2c 2b 2a

Interface c-direction Partial Density Of States

Comparing Pure Crystal with Interface

Simplified DOS model + Strong interaction Weak interaction Or Pure crystalMetallic Li Our results DOS E E E E

Conclusion and future work We constructed 3 different interfaces on a, b and c planes, with Li metal on Li 3 PO 4 We found plausible structures with well-defined electrolyte boundary From the Partial DOS plots, we found an energy gap between electrolyte and metal states. On the presence of Li metal, electrolyte is physically and chemically stable. We plan to study Li-ion diffusion across these interfaces

Other possible structures two a-direction interfaces

Other possible structures two b-direction interfaces