2022
DOI: 10.1002/aenm.202270205
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Rejuvenating Propylene Carbonate‐based Electrolyte Through Nonsolvating Interactions for Wide‐Temperature Li‐ions Batteries (Adv. Energy Mater. 48/2022)

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Cited by 14 publications
(22 citation statements)
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“…It is believed that the electrochemical behavior of graphite is intimately linked to Li + solvation chemistry and dictated by the formed SEI in LIBs, which inspires two avenues to enable graphite electrode with PC‐dominating electrolyte, namely regulating solvation structure and constructing robust interphase. [ 12–16 ] Indeed, some novel additives, such as Li salts with tailor‐designed structure and new film‐forming molecules, have been tentatively added into PC‐based electrolytes to adjust SEI composition and successfully guaranteed reversible cycling of graphite. [ 17,18 ] Recently, the super‐concentrated electrolytes (SCEs) and diluted SCEs are designed to construct anion‐dominated coordination.…”
Section: Introductionmentioning
confidence: 99%
“…It is believed that the electrochemical behavior of graphite is intimately linked to Li + solvation chemistry and dictated by the formed SEI in LIBs, which inspires two avenues to enable graphite electrode with PC‐dominating electrolyte, namely regulating solvation structure and constructing robust interphase. [ 12–16 ] Indeed, some novel additives, such as Li salts with tailor‐designed structure and new film‐forming molecules, have been tentatively added into PC‐based electrolytes to adjust SEI composition and successfully guaranteed reversible cycling of graphite. [ 17,18 ] Recently, the super‐concentrated electrolytes (SCEs) and diluted SCEs are designed to construct anion‐dominated coordination.…”
Section: Introductionmentioning
confidence: 99%
“…Seen from Raman spectra, TDSTCN additive can significantly suppress the exfoliation of layered Gr structure at elevated temperature (Figure 4d). [ 50 ] For the first time, we identify that Gr exfoliation at elevated temperature in LiPF 6 ‐carbonate electrolyte (PC‐free) is an important cause of battery capacity loss as well. In‐depth XPS analysis (Ar + sputtering for 0, 20, and 60 nm) of Gr anode clearly reveals that much less Li 2 CO 3 and more LiF is generated with the help of TDSTCN additive (Figure 4e−h).…”
Section: Resultsmentioning
confidence: 99%
“…Actually, PC is still anticipated to be used as the main solvent of electrolytes for LIBs nowadays, and large amounts of efforts (such as adopting co‐solvents, additives, or lithium salts) have been devoted to deciphering and improving the interphase compatibility between PC‐based electrolytes and graphite anode. [ 25–28,32–43 ] However, to date, the understanding of PC‐induced graphite exfoliation and its suppression mechanism is still not comprehensive. [ 26–28,42,43 ] As a result, the embarrassing situation is that practical high capacity (over 2 Ah) LIBs using PC‐based electrolytes (PC content over 50 vol%, EC‐free) are rarely reported at present.…”
Section: Introductionmentioning
confidence: 99%