As the global demand for electric vehicles and portable electronics surges, high-energy-density and inherently safe energy storage systems has become more important than ever. However, while solid-state lithium batteries (SSLBs) offer high safety due to their non-flammability, traditional solid electrolytes face significant bottlenecks, including low ionic conductivity, poor interfacial contact, and mechanical brittleness.
In a review published in Supramolecular Materials, a team of researchers from China highlight a new approach: using supramolecular chemistry to engineer "smart" battery components. The study provides a molecular engineering foundation for realizing practical, high-efficiency, and safe next-generation batteries.
“Unlike traditional materials that rely on rigid covalent bonds, supramolecular materials utilize reversible non-covalent interactions such as hydrogen bonding, halogen bonding, and π-π stacking to create highly ordered, self-assembled structures,” explains senior and corresponding author Kai Liu.
Notably, supramolecular chemistry provides a programmable molecular-level design framework for solid-state batteries. “These dynamic interactions act as a ‘smart glue,’ allowing electrolytes to self-heal microcracks and adapt to the volume changes of electrodes during cycling,” adds Liu. “This flexibility is crucial for suppressing lithium dendrite growth, which often leads to short circuits in conventional designs."
The researchers also detailed how these molecular interactions build efficient ion transport pathways, lowering energy barriers and improving the battery's rate performance. “By precisely regulating the interfacial composition, supramolecular strategies significantly reduce impedance and enhance long-term cycling stability,” says Liu.
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References
DOI
10.1016/j.supmat.2025.100118
Original Source URL
https://doi.org/10.1016/j.supmat.2025.100118
Funding Information
This research was supported by the Tsinghua University-China Petrochemical Corporation Joint Institute for Green Chemical Engineering (224247) and the Tsinghua-Toyota Joint Research Fund.
About Supramolecular Materials
Supramolecular Materials is a publication of peer-reviewed research. It covers all aspects of these materials, which are based on supramolecular interactions or self-assembly.