JOURNAL ARTICLE
Lithium–Sulfur Batteries: Tethered Molecular Sorbents: Enabling Metal‐Sulfur Battery Cathodes (Adv. Energy Mater. 17/2014)
Lin MaHoulong ZhuangYingying LüSurya S. MogantyRichard G. HennigLynden A. Archer
Year: 2014 Journal: Advanced Energy Materials Vol: 4 (17) Publisher: Wiley
Abstract
Sulfur is a low-cost, earth-abundant material with world-wide availability. In article number 1400390, Lynden A. Archer and co-workers use density functional theory and experiments to demonstrate that it is possible to rationally design composite sulfur cathodes in which sulfur is thermodynamically sequestered.
Keywords:
Sulfur Lithium–sulfur battery Battery (electricity) Materials science Cathode Density functional theory Energy density Composite number Chemical engineering Metal Energy storage Lithium (medication) Inorganic chemistry Nanotechnology Composite material Chemistry Metallurgy Physical chemistry Engineering physics Computational chemistry Engineering
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Topics
Advanced Battery Materials and Technologies
Physical Sciences → Engineering → Electrical and Electronic Engineering
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