Bubble Wrap-like Carbon-Coated Rattle-Type silica@silicon Nanoparticles as Hybrid Anode Materials for Lithium-Ion Batteries via Surface-Protected Etching

Martino, Angelica; Jeon, Jiyun; Park, Hyun-Ho; Lee, Hochun; Lee, Chang-Seop

doi:10.3390/batteries10020053

Batteries

2024

DOI: 10.3390/batteries10020053

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Bubble Wrap-like Carbon-Coated Rattle-Type silica@silicon Nanoparticles as Hybrid Anode Materials for Lithium-Ion Batteries via Surface-Protected Etching

Angelica Martino,

Jiyun Jeon,

Hyun-Ho Park

et al.

Abstract: Severe volumetric expansion (~400%) limits practical application of silicon nanoparticles as anode materials for next-generation lithium-ion batteries (LIBs). Here, we describe the fabrication and characterization of a conformal polydopamine carbon shell encapsulating rattle-type silica@silicon nanoparticles (PDA–PEI@PVP–SiO2@Si) with a tunable void structure using a dual template strategy with TEOS and (3-aminopropyl)triethoxysilane (APTES) pretreated with polyvinylpyrrolidone (PVP K30) as SiO2 sacrificial te… Show more

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New Insights into Phytolith Characteristics in Wild Grass as the Source of Sustainable Silicon Oxide Anodes

Aini,

Persada,

Pasha

et al. 2024

ACS Sustainable Chem. Eng.

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Silicon oxide (SiO x ) is a promising Si-based anode due to its abundant natural resources and high theoretical capacity. Beyond the Earth’s crust, extracting SiO x from phytolith-rich plants offers a sustainable alternative, where the organic carbon can naturally occlude within the phytolith structure. This work examines the phytolith characteristics and the anode performance of the resultant SiO x /carbon composite (SiO x /C) derived from wild grass phytolith-rich plants (i.e., Goosegrass and Ghaeri’s Rush). While Ghaeri’s Rush phytoliths exhibit cavate morphology with occluded carbon located within thin silica walls and cavities, Goosegrass solid phytoliths feature a dense solid silica matrix with occluded carbon tightly isolated throughout the solid silica matrix. This characteristic leads to superior characteristics for SiO x /C anodes derived from Goosegrass, which exhibit a larger amount of active SiO x , wider surface area (1408 m2 g–1), and a higher amount of defective carbon, compared to those derived from Ghaeri’s Rush. In addition, X-ray photoelectron spectroscopy shows that the Si content in SiO x /C derived from Goosegrass mostly consists of active SiO x with a low organosilicon content (12.96%). These characteristics of Goosegrass improve the SiO x /C anode’s gravimetric capacity, cycling durability, and capability of the charge–discharge rate, delivering 704 mAh g–1 after 500 charge–discharge cycles at 200 mA g–1 without any capacity degradation. It also achieves a capacity as high as 330 mAh g–1 during a rate capability test at 1000 mA g–1. This study highlights the potential of phytolith-rich wild grasses for sustainable and stable Li-ion battery technology by emphasizing the influence of phytolith characteristics on the SiO x /C anode properties.

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New Insights into Phytolith Characteristics in Wild Grass as the Source of Sustainable Silicon Oxide Anodes

Aini,

Persada,

Pasha

et al. 2024

ACS Sustainable Chem. Eng.

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show abstract

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Bubble Wrap-like Carbon-Coated Rattle-Type silica@silicon Nanoparticles as Hybrid Anode Materials for Lithium-Ion Batteries via Surface-Protected Etching

Cited by 1 publication

References 72 publications

New Insights into Phytolith Characteristics in Wild Grass as the Source of Sustainable Silicon Oxide Anodes

New Insights into Phytolith Characteristics in Wild Grass as the Source of Sustainable Silicon Oxide Anodes

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