2015
DOI: 10.1073/pnas.1520394112
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Compliant glass–polymer hybrid single ion-conducting electrolytes for lithium batteries

Abstract: Despite high ionic conductivities, current inorganic solid electrolytes cannot be used in lithium batteries because of a lack of compliance and adhesion to active particles in battery electrodes as they are discharged and charged. We have successfully developed a compliant, nonflammable, hybrid single ion-conducting electrolyte comprising inorganic sulfide glass particles covalently bonded to a perfluoropolyether polymer. The hybrid with 23 wt% perfluoropolyether exhibits low shear modulus relative to neat gla… Show more

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Cited by 109 publications
(75 citation statements)
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“…The results identify that, comparing to those complicated preparation process and high cost methods as mentioned above, the electrochemical stability window of PEO 18 -LiTFSI can be broadened greatly by adding a small amount of 1%LGPS and 10%SN in this work via a convenient method with low cost. This is attribute to there exists ÀSH groups in the surface of LGPS inorganic particles [41]. The groups of ÀSH are very beneficial for promoting the bonding of TFSI À and LGPS, which results in a decrease in the mobility of the anions and this is consistent with the t Li+ as summarized in Table 3.…”
Section: Electrochemical Stability Windowsupporting
confidence: 55%
“…The results identify that, comparing to those complicated preparation process and high cost methods as mentioned above, the electrochemical stability window of PEO 18 -LiTFSI can be broadened greatly by adding a small amount of 1%LGPS and 10%SN in this work via a convenient method with low cost. This is attribute to there exists ÀSH groups in the surface of LGPS inorganic particles [41]. The groups of ÀSH are very beneficial for promoting the bonding of TFSI À and LGPS, which results in a decrease in the mobility of the anions and this is consistent with the t Li+ as summarized in Table 3.…”
Section: Electrochemical Stability Windowsupporting
confidence: 55%
“…To verify adhesion of ANP‐5 over the course of battery cycling and electrode expansion and contraction, we performed storage ( G ′) and loss ( G ″) shear moduli tests at 25 °C on crosslinked and non‐crosslinked membrane electrolytes with 30 wt% plasticizer (Figure 3d). For both materials, G ′ was higher than G ″ by nearly an order of magnitude over the measured frequency range, and both moduli were largely frequency independent, suggesting that the membranes act as elastic solids . The shear modulus of the crosslinked membrane was found to be an order of magnitude larger than that of the non‐crosslinked membrane (0.1 vs 0.01 MPa), confirming that crosslinking improves the membrane mechanical properties.…”
mentioning
confidence: 78%
“…The assumption is that micro-or mesoporous carbon are sufficient to (1) permit the entry of molten (or sublimed) sulfur when fabricating cathodes and electrolyte during operation but (2) prevent or significantly hinder the escape of polysulfides based on size 20 or unfavorable chemical interactions. 21 Maximizing the performance of porous carbon/sulfur composite cathodes depends on a nanoscale appreciation of which regions naturally favor sulfur accumulation and whether this is of benefit to electrochemical function. This in turn demands selective probes of the buried functional interface with nanometer resolution in order to reveal molecular details of critical energy conversion processes.…”
mentioning
confidence: 99%