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Advanced filters: Author: David G. Mackanic Clear advanced filters

Decoupling of mechanical properties and ionic conductivity in supramolecular lithium ion conductors

Typically, ion conducting polymers exhibit a trade-off between mechanical robustness and ionic conducting performance. Here, the authors utilize supramolecular chemistry obtaining extremely tough electrolytes with high ionic conductivity and enabling stretchable lithium-ion batteries.

David G. Mackanic
Xuzhou Yan
Zhenan Bao
ResearchOpen Access26 Nov 2019
Nature Communications

Volume: 10, P: 1-11
Molecular design for electrolyte solvents enabling energy-dense and long-cycling lithium metal batteries

The realization of the full potential of Li metal batteries requires high-performance electrolytes. Here Z. Bao and colleagues develop low-concentration electrolytes with a single-solvent and single-salt formulation, offering promise for high-energy and long-cycling batteries.

Zhiao Yu
Hansen Wang
Zhenan Bao
Research22 Jun 2020
Nature Energy

Volume: 5, P: 526-533
Designing polymers for advanced battery chemistries

Polymers are ubiquitous in batteries as binders, separators, electrolytes and electrode coatings. In this Review, we discuss the principles underlying the design of polymers with advanced functionalities to enable progress in battery engineering, with a specific focus on silicon, lithium-metal and sulfur battery chemistries.

Jeffrey Lopez
David G. Mackanic
Zhenan Bao
Reviews03 Apr 2019
Nature Reviews Materials

Volume: 4, P: 312-330

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