Improving high rate cycling limitations of thick sintered battery electrodes by mitigating molecular transport limitations through modifying electrode microstructure and electrolyte conductivity,Molecular Systems Design & Engineering

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Improving high rate cycling limitations of thick sintered battery electrodes by mitigating molecular transport limitations through modifying electrode microstructure and electrolyte conductivity
Molecular Systems Design & Engineering ( IF 3.6 ) Pub Date : 2021-07-26 , DOI: 10.1039/d1me00082a
Ziyang Nie ₁ , Rohan Parai ₂ , Chen Cai ₁ , Dipankar Ghosh ₂ , Gary M. Koenig ₁

Affiliation

For batteries, thicker electrodes increase energy density, however, molecular transport limits the rate of charge/discharge for extracting large fractions of available energy. Mitigating transport limitations by increasing electrolyte conductivity and aligning the pores in the electrode microstructure are described.

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