Emilee Larson scite author profile

Emilee Larson

5Publications

7Citation Statements Received

55Citation Statements Given

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Affiliations

Georgia Southern University

Publications

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Etching Asymmetric Germanium Membranes with Hydrogen Peroxide for High‐Capacity Lithium‐Ion Battery Anodes

Jin

Larson

et al. 2020

Physica Status Solidi (a)

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Germanium (Ge) is deemed as one of the most promising alloying anodes for rechargeable lithium‐ion batteries (LIBs) due to its large theoretical capacity, high electrical conductivity, fast lithium‐ion diffusivity, and mechanical robustness. However, Ge‐based anodes suffer from large volume changes during lithiation and delithiation, which can deteriorate their electrochemical performance rapidly. Herein, the large volume change issue is effectively addressed using an asymmetric membrane structure that is prepared using a phase‐inversion method in combination with hydrogen peroxide etching and surface coating. The asymmetric Ge membrane etched by ≈30 wt% H2O2 at 90 °C for 30 s demonstrates a capacity retention higher than 80% in 50 cycles at 160 mA g−1. Coating the H2O2‐etched Ge membrane with carbonaceous membranes can further improve the retention up to 95% in 50 cycles at 160 mA g−1, whereas ≈100% capacity of 700 mAh g−1 can be maintained in 170 cycles at 400 mA g−1. A combination of electron microscopy, spectrophotometry, and X‐ray analyses confirms the electrochemical performance of asymmetric Ge membranes as the LIB anode can be significantly affected by membrane geometry, the duration of hydrogen peroxide etching, carbonaceous membrane coating, and Ge concentration.

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Molybdenum oxide nanoporous asymmetric membranes for high-capacity lithium ion battery anode

Larson

Williams

Jin

et al. 2021

Journal of Materials Research

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Correction to: Molybdenum oxide nanoporous asymmetric membranes for high‑capacity lithium ion battery anode

Larson

Williams

Jin

et al. 2021

Journal of Materials Research

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H₂O₂-etched germanium membranes for cyclable lithium ion battery anode

Larson¹,

Williams²

2020

Preprint

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H₂O₂-etched germanium membranes for cyclable lithium ion battery anode

Larson¹,

Williams²

2020

Preprint

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Emilee Larson

Etching Asymmetric Germanium Membranes with Hydrogen Peroxide for High‐Capacity Lithium‐Ion Battery Anodes

Molybdenum oxide nanoporous asymmetric membranes for high-capacity lithium ion battery anode

Correction to: Molybdenum oxide nanoporous asymmetric membranes for high‑capacity lithium ion battery anode

H₂O₂-etched germanium membranes for cyclable lithium ion battery anode

H₂O₂-etched germanium membranes for cyclable lithium ion battery anode

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Product

Resources

About

Emilee Larson

Etching Asymmetric Germanium Membranes with Hydrogen Peroxide for High‐Capacity Lithium‐Ion Battery Anodes

Molybdenum oxide nanoporous asymmetric membranes for high-capacity lithium ion battery anode

Correction to: Molybdenum oxide nanoporous asymmetric membranes for high‑capacity lithium ion battery anode

H2O2-etched germanium membranes for cyclable lithium ion battery anode

H2O2-etched germanium membranes for cyclable lithium ion battery anode

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Product

Resources

About

H₂O₂-etched germanium membranes for cyclable lithium ion battery anode

H₂O₂-etched germanium membranes for cyclable lithium ion battery anode