Advancements in silicon anodes for enhanced lithium‐ion batteries performance: innovations toward next‐gen superbatteries

Norshahirah Mohamad Saidi; Muhammad Amirul Aizat Mohd Abdah; Muhammad Norhaffis Mustafa; Rashmi Walvekar; Mohammad Khalid; Ajit Khosla

doi:10.1002/bte2.20240048

Advancements in silicon anodes for enhanced lithium‐ion batteries performance: innovations toward next‐gen superbatteries

Norshahirah Mohamad Saidi, Muhammad Amirul Aizat Mohd Abdah, Muhammad Norhaffis Mustafa, Rashmi Walvekar, Mohammad Khalid^*, Ajit Khosla^*

^*Corresponding author for this work

Chemical And Process Engineering

Research output: Contribution to journal › Review article › peer-review

2 Citations (Scopus)

31 Downloads (Pure)

Abstract

Silicon (Si)‐based materials have emerged as promising alternatives to graphite anodes in lithium‐ion (Li‐ion) batteries due to their exceptionally high theoretical capacity. However, their practical deployment remains constrained by challenges such as significant volume changes during lithiation, poor electrical conductivity, and the instability of the solid electrolyte interphase (SEI). This review critically examines recent advancements in Si‐based nanostructures to enhance stability and electrochemical performance. Distinct from prior studies, it highlights the application of Si anodes in commercial domains, including electric vehicles, consumer electronics, and renewable energy storage systems, where prolonged cycle life and improved power density are crucial. Special emphasis is placed on emerging fabrication techniques, particularly scalable and cost‐effective methods such as electrospinning and sol–gel processes, which show promise for industrial adoption. By addressing both the technical innovations and economic considerations surrounding Si anodes, this review provides a comprehensive roadmap for overcoming existing barriers, paving the way for next‐generation, high‐performance batteries.

Original language	English
Article number	e20240048
Number of pages	23
Journal	Battery Energy
Early online date	30 Jan 2025
DOIs	https://doi.org/10.1002/bte2.20240048
Publication status	E-pub ahead of print - 30 Jan 2025

Funding

The authors would like to thank the financial support from the Sunway University Research Grant (GRTIN‐RRO‐60‐2022) and the International Research Network Grant Scheme (STR‐IRNGSSET‐GAMRG‐01‐2022). We also thank LetPub (www.letpub.com) for linguistic assistance and pre‐submission expert review.

Keywords

Nanostructure
Silicon anode
Superbatteries
Lithium‐ion battery

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1002/bte2.20240048Licence: CC BY 4.0

Battery Energy - 2025 - Saidi - Advancements in Silicon Anodes for Enhanced Lithium‐Ion Batteries Performance InnovationsFinal published version, 3.4 MBLicence: CC BY 4.0

Cite this

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title = "Advancements in silicon anodes for enhanced lithium‐ion batteries performance: innovations toward next‐gen superbatteries",

abstract = "Silicon (Si)‐based materials have emerged as promising alternatives to graphite anodes in lithium‐ion (Li‐ion) batteries due to their exceptionally high theoretical capacity. However, their practical deployment remains constrained by challenges such as significant volume changes during lithiation, poor electrical conductivity, and the instability of the solid electrolyte interphase (SEI). This review critically examines recent advancements in Si‐based nanostructures to enhance stability and electrochemical performance. Distinct from prior studies, it highlights the application of Si anodes in commercial domains, including electric vehicles, consumer electronics, and renewable energy storage systems, where prolonged cycle life and improved power density are crucial. Special emphasis is placed on emerging fabrication techniques, particularly scalable and cost‐effective methods such as electrospinning and sol–gel processes, which show promise for industrial adoption. By addressing both the technical innovations and economic considerations surrounding Si anodes, this review provides a comprehensive roadmap for overcoming existing barriers, paving the way for next‐generation, high‐performance batteries.",

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author = "Saidi, {Norshahirah Mohamad} and Abdah, {Muhammad Amirul Aizat Mohd} and Mustafa, {Muhammad Norhaffis} and Rashmi Walvekar and Mohammad Khalid and Ajit Khosla",

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AU - Saidi, Norshahirah Mohamad

AU - Abdah, Muhammad Amirul Aizat Mohd

AU - Mustafa, Muhammad Norhaffis

AU - Walvekar, Rashmi

AU - Khalid, Mohammad

AU - Khosla, Ajit

PY - 2025/1/30

Y1 - 2025/1/30

N2 - Silicon (Si)‐based materials have emerged as promising alternatives to graphite anodes in lithium‐ion (Li‐ion) batteries due to their exceptionally high theoretical capacity. However, their practical deployment remains constrained by challenges such as significant volume changes during lithiation, poor electrical conductivity, and the instability of the solid electrolyte interphase (SEI). This review critically examines recent advancements in Si‐based nanostructures to enhance stability and electrochemical performance. Distinct from prior studies, it highlights the application of Si anodes in commercial domains, including electric vehicles, consumer electronics, and renewable energy storage systems, where prolonged cycle life and improved power density are crucial. Special emphasis is placed on emerging fabrication techniques, particularly scalable and cost‐effective methods such as electrospinning and sol–gel processes, which show promise for industrial adoption. By addressing both the technical innovations and economic considerations surrounding Si anodes, this review provides a comprehensive roadmap for overcoming existing barriers, paving the way for next‐generation, high‐performance batteries.

AB - Silicon (Si)‐based materials have emerged as promising alternatives to graphite anodes in lithium‐ion (Li‐ion) batteries due to their exceptionally high theoretical capacity. However, their practical deployment remains constrained by challenges such as significant volume changes during lithiation, poor electrical conductivity, and the instability of the solid electrolyte interphase (SEI). This review critically examines recent advancements in Si‐based nanostructures to enhance stability and electrochemical performance. Distinct from prior studies, it highlights the application of Si anodes in commercial domains, including electric vehicles, consumer electronics, and renewable energy storage systems, where prolonged cycle life and improved power density are crucial. Special emphasis is placed on emerging fabrication techniques, particularly scalable and cost‐effective methods such as electrospinning and sol–gel processes, which show promise for industrial adoption. By addressing both the technical innovations and economic considerations surrounding Si anodes, this review provides a comprehensive roadmap for overcoming existing barriers, paving the way for next‐generation, high‐performance batteries.

KW - Nanostructure

KW - Silicon anode

KW - Superbatteries

KW - Lithium‐ion battery

U2 - 10.1002/bte2.20240048

DO - 10.1002/bte2.20240048

M3 - Review article

SN - 2768-1688

JO - Battery Energy

JF - Battery Energy

M1 - e20240048

ER -

Advancements in silicon anodes for enhanced lithium‐ion batteries performance: innovations toward next‐gen superbatteries

Abstract

Funding

Keywords

UN SDGs

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