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W2950660957 endingPage "473" @default.
W2950660957 startingPage "464" @default.
W2950660957 abstract "A novel double-sided conductive (DSC) separator consisting of two 5 μm-thick carbon nanotube (CNT)/cellulose nanofiber (CNF) composite layers coated on each side of a 20 μm-thick glass-fiber (GF)/CNF composite membrane is described. In a lithium-metal battery (LMB), the DSC separator exhibits a high ionic conductivity (i.e. 1.7 mS cm−1 using an LP40 electrolyte) due to the high porosity (i.e. 66%) of the GF/CNF membrane. More stable Li anodes can also be realized by depositing Li within the porous electronically conducting CNT/CNF matrix at the DSC separator anode side due to the decreased current density. The CNT/CNF layer of the DSC separator facing the cathode, which is in direct electric contact with the current collector, decreases the overpotential for the cathode and consequently improves its capacity and rate performance significantly. A Li/Li cell containing a DSC separator showed an improved cycling stability compared to an analogous cell equipped with a commercial Celgard separator at current densities up to 5 mA cm−2 for Li deposition and stripping capacities up to 5 mAh cm−2. A proof-of-concept LMB containing a lithium iron phosphate (LFP) composite cathode and a DSC separator showed a significantly improved rate capability, yielding capacities of about 110 mAh g−1 at 5 C and 80 mAh g−1 at 10 C. The LMB cell containing a DSC separator also exhibited a capacity retention of 80% after 200 cycles at a rate of 6 C indicating that the two-sided conductive separator design has significant potential in facilitating the development of well-functioning LMBs." @default.
W2950660957 created "2019-06-27" @default.
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W2950660957 date "2019-09-01" @default.
W2950660957 modified "2023-10-18" @default.
W2950660957 title "Double-sided conductive separators for lithium-metal batteries" @default.
W2950660957 cites W1897906205 @default.
W2950660957 cites W1944374742 @default.
W2950660957 cites W1968283912 @default.
W2950660957 cites W1971821421 @default.
W2950660957 cites W1972767018 @default.
W2950660957 cites W1985466864 @default.
W2950660957 cites W2004721328 @default.
W2950660957 cites W2012341724 @default.
W2950660957 cites W2021172010 @default.
W2950660957 cites W2047775546 @default.
W2950660957 cites W2058652556 @default.
W2950660957 cites W2062592884 @default.
W2950660957 cites W2073903518 @default.
W2950660957 cites W2090514370 @default.
W2950660957 cites W2095953845 @default.
W2950660957 cites W2123155247 @default.
W2950660957 cites W2154145425 @default.
W2950660957 cites W2233059155 @default.
W2950660957 cites W2275137717 @default.
W2950660957 cites W2280118002 @default.
W2950660957 cites W2288134521 @default.
W2950660957 cites W2291182905 @default.
W2950660957 cites W2320624684 @default.
W2950660957 cites W2326501469 @default.
W2950660957 cites W2343977197 @default.
W2950660957 cites W2345874050 @default.
W2950660957 cites W2356123516 @default.
W2950660957 cites W2405266609 @default.
W2950660957 cites W2422073305 @default.
W2950660957 cites W2465156635 @default.
W2950660957 cites W2476116270 @default.
W2950660957 cites W2490292921 @default.
W2950660957 cites W2496932484 @default.
W2950660957 cites W2507324948 @default.
W2950660957 cites W2510611986 @default.
W2950660957 cites W2518099942 @default.
W2950660957 cites W2521899129 @default.
W2950660957 cites W2523830614 @default.
W2950660957 cites W2531515086 @default.
W2950660957 cites W2546433560 @default.
W2950660957 cites W2552921837 @default.
W2950660957 cites W2573897539 @default.
W2950660957 cites W2579567274 @default.
W2950660957 cites W2580285842 @default.
W2950660957 cites W2587829988 @default.
W2950660957 cites W2593815020 @default.
W2950660957 cites W2595381259 @default.
W2950660957 cites W2596398049 @default.
W2950660957 cites W2597459350 @default.
W2950660957 cites W2600615905 @default.
W2950660957 cites W2607237296 @default.
W2950660957 cites W2609179305 @default.
W2950660957 cites W2611684284 @default.
W2950660957 cites W2613989849 @default.
W2950660957 cites W2614305498 @default.
W2950660957 cites W2614850432 @default.
W2950660957 cites W2621738925 @default.
W2950660957 cites W2742075475 @default.
W2950660957 cites W2748965604 @default.
W2950660957 cites W2768122289 @default.
W2950660957 cites W2771894177 @default.
W2950660957 cites W2777165353 @default.
W2950660957 cites W2782374119 @default.
W2950660957 cites W2793950875 @default.
W2950660957 cites W2794324804 @default.
W2950660957 cites W2795313425 @default.
W2950660957 cites W2800690740 @default.
W2950660957 cites W2886646723 @default.
W2950660957 cites W2892125155 @default.
W2950660957 cites W2896913307 @default.
W2950660957 cites W2899465312 @default.
W2950660957 cites W4211096336 @default.
W2950660957 doi "https://doi.org/10.1016/j.ensm.2019.06.025" @default.
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