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Designing Highly Conductive Functional Groups Improving Guest–Host Interactions in Li/S Batteries
Author(s) -
Agostini Marco,
Matic Aleksandar
Publication year - 2020
Publication title -
small
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.785
H-Index - 236
eISSN - 1613-6829
pISSN - 1613-6810
DOI - 10.1002/smll.201905585
Subject(s) - heteroatom , electrical conductor , materials science , sulfur , nanotechnology , conductivity , battery (electricity) , sulfide , conductive polymer , electrode , porosity , chemical engineering , polymer , chemistry , organic chemistry , composite material , ring (chemistry) , power (physics) , physics , quantum mechanics , engineering , metallurgy
Li‐sulfur batteries are of great interest due to their potential to surpass the energy densities of other battery types, but the low electronic conductivity of both sulfur and its discharge products requires the use of a conductive host material. The most common is the use of different porous carbons which normally are hydrophobic and hardly retain the polar discharge products of the Li/S reaction, such as Li 2 S and lithium polysulfides (LiPs), at the working electrode. Functionalized hosts have been proposed as a strategy to improve LiPs interactions, including the use of heteroatom doping, organic frameworks, metals, metal oxides, sulfide particles, and conductive polymers. Despite demonstrating an improved cycle life, the functionalized structures often have an intrinsic limitation related to a low electronic conductivity resulting in slow kinetics and poor rate capability of Li/S cells. Herein, recent research trends aimed at designing sulfur electrodes with highly conductive functional groups on nanostructured hosts surface are reviewed. The main concepts, key developments, and parameters for building 3D hosts architectures that enable fast charge rates and long cycle life at high sulfur loadings are discussed.

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