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Related Concept Videos

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Batteries and Fuel Cells

A battery is a galvanic cell that is used as a source of electrical power for specific applications. Modern batteries exist in a multitude of forms to accommodate various applications, from tiny button batteries such as those that power wristwatches to the very large batteries used to supply backup energy to municipal power grids. Some batteries are designed for single-use applications and cannot be recharged (primary cells), while others are based on conveniently reversible cell reactions that...
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A Metal-Oxide-Semiconductor (MOS) capacitor is a fundamental structure used extensively in semiconductor device technology, particularly in the fabrication of integrated circuits and MOSFETs (metal-oxide-semiconductor field-effect transistors). The MOS capacitor consists of three layers: a metal gate, a dielectric oxide, and a semiconductor substrate.
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Updated: May 21, 2026

Screening of Coatings for an All-Solid-State Battery Using In Situ Transmission Electron Microscopy
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Decoupling Chemo-Mechanical Degradation for Scalable Silicon-Based Solid-State Batteries.

Yujing Su1, Yingdong Chen1, Lei Zhao2

  • 1School of Chemistry and Chemical Engineering, Nanjing University of Science and Technology, Nanjing, China.

Advanced Materials (Deerfield Beach, Fla.)
|May 20, 2026
PubMed
Summary
This summary is machine-generated.

Silicon-based solid-state batteries offer higher energy density but face degradation. This review explores failure mechanisms and stabilization strategies for practical Si-SSB development.

Keywords:
chemo‐mechanical degradationinterface engineeringsilicon anodesolid electrolytes

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Area of Science:

  • Materials Science
  • Electrochemistry
  • Mechanical Engineering

Background:

  • Silicon-based solid-state batteries (Si-SSBs) are promising for next-generation energy storage.
  • Their advancement is hindered by chemo-mechanical degradation at the silicon anode-solid electrolyte interface.

Purpose of the Study:

  • To systematically review Si-SSB failure mechanisms.
  • To evaluate strategies for interfacial stabilization and mechanical reinforcement.
  • To discuss scalability and manufacturing considerations.

Main Methods:

  • Operando characterization techniques to study failure mechanisms.
  • Analysis of interfacial stabilization strategies including viscoelastic buffers, surface modification, and composite design.
  • Multiscale modeling to understand stress-electrochemical coupling.

Main Results:

  • Detailed understanding of chemo-mechanical degradation pathways at the atomic and macroscopic levels.
  • Evaluation of various strategies to enhance interfacial stability and mechanical properties.
  • Identification of key factors for harmonizing ionic conductivity and mechanical compliance.

Conclusions:

  • Interfacial engineering is crucial for overcoming Si-SSB degradation.
  • Integrated material design and multiscale modeling are essential for performance optimization.
  • Addressing scalability and manufacturing challenges is vital for commercialization.