Improvement of desolvation and resilience of alginate binders for Si-based anodes in a lithium ion battery by calcium-mediated cross-linking.

Jihee Yoon,Changshin Jo,Dong Soo Hwang,Jinwoo Lee,Dongyeop X Oh

doi:10.1039/c4cp03499f

Improvement of desolvation and resilience of alginate binders for Si-based anodes in a lithium ion battery by calcium-mediated cross-linking.

Jihee Yoon, Changshin Jo + Show 3 more

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Journal: Phys. Chem. Chem. Phys.	Publication Date: Jan 1, 2014
Citations: 118	License type: cc-by-nc-nd

Affiliation: Pohang University of Science and Technology, Instituto de Ciência e Tecnologia de Polímeros

#Si-based Anodes In Lithium Ion Batteries #Anodes In Lithium Ion Batteries #Alginate Binder #Si-based Anodes #Lithium Ion Batteries #Charging-discharging Process #Si Particle #Improvement Of Resilience #Capacity Of Anodes #Properties Of Binder

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Si-based anodes in lithium ion batteries (LIBs) have exceptionally high theoretical capacity, but the use of a Si-based anode in LIBs is problematic because the charging-discharging process can fracture the Si particles. Alginate and its derivatives show promise as Si particle binders in the anode. We show that calcium-mediated "egg-box" electrostatic cross-linking of alginate improves toughness, resilience, electrolyte desolvation of the alginate binder as a Si-binder for LIBs. Consequently, the improved mechanical properties of the calcium alginate binder compared to the sodium alginate binder and other commercial binders extend the lifetime and increase the capacity of Si-based anodes in LIBs.

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Improvement of desolvation and resilience of alginate binders for Si-based anodes in a lithium ion battery by calcium-mediated cross-linking.