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W3097812725 endingPage "124" @default.
W3097812725 startingPage "112" @default.
W3097812725 abstract "Abstract Herein, a co‐doping strategy is proposed for a Li‐rich layered Ru‐based cathode, Li 2 RuO 3 (LRO), as promising next‐generation cathode materials. Using quantum mechanics, molecular dynamics, and macroscale mathematical modeling, the electrochemical properties such as voltage, electronic structure, thermodynamic structural stability, O 2 stability, electrical conductivity coefficient, the energy barrier, theoretical capacity, Li‐ion diffusion coefficient, proportion of the electrode materials in the internal resistance of LIBs, and the percentage of waste energy in charge‐discharge cycles of all samples are calculated and compared. The results show that the cathode with Ti and Zr has the highest maximum voltage and the lowest voltage reduction during the discharge process. Also, it has 25 % lower waste energy in comparison to the undoped cathodes which indicates significant improvements in its efficiency. On the other hand, Li 2 Ru 0.75 Ti 0.125 Cr 0.125 O 3 (LRTCO) has the highest electrical conductivity coefficient, thermodynamic, structural and oxygen stability as well as theoretical capacity, which indicates the highest durability and safety improvement for LRO cathode materials. Moreover, it is shown in this study that the ohmic potential drop for the studied cathodes is negligible and is not worth the investment for reducing the internal resistance. This study can provide a brighter insight into the co‐doping strategy for materials in future investigations." @default.
W3097812725 created "2020-11-09" @default.
W3097812725 creator A5000850784 @default.
W3097812725 creator A5024255843 @default.
W3097812725 creator A5074273283 @default.
W3097812725 date "2020-11-17" @default.
W3097812725 modified "2023-10-05" @default.
W3097812725 title "Multiscale Investigation into the Co‐Doping Strategy on the Electrochemical Properties of Li <sub>2</sub> RuO <sub>3</sub> Cathodes for Li‐Ion Batteries" @default.
W3097812725 cites W1532819480 @default.
W3097812725 cites W1550061415 @default.
W3097812725 cites W1757660917 @default.
W3097812725 cites W1834264976 @default.
W3097812725 cites W1941279926 @default.
W3097812725 cites W1965866772 @default.
W3097812725 cites W1968641774 @default.
W3097812725 cites W1971122675 @default.
W3097812725 cites W1974699175 @default.
W3097812725 cites W1977700257 @default.
W3097812725 cites W1981125795 @default.
W3097812725 cites W1981368803 @default.
W3097812725 cites W1988822440 @default.
W3097812725 cites W1995233086 @default.
W3097812725 cites W2001618707 @default.
W3097812725 cites W2005774978 @default.
W3097812725 cites W2008579358 @default.
W3097812725 cites W2009068183 @default.
W3097812725 cites W2009366446 @default.
W3097812725 cites W2016168218 @default.
W3097812725 cites W2021172010 @default.
W3097812725 cites W2026001144 @default.
W3097812725 cites W2038026789 @default.
W3097812725 cites W2043073259 @default.
W3097812725 cites W2052411506 @default.
W3097812725 cites W2058104172 @default.
W3097812725 cites W2076894324 @default.
W3097812725 cites W2077330824 @default.
W3097812725 cites W2079985616 @default.
W3097812725 cites W2085571396 @default.
W3097812725 cites W2086513155 @default.
W3097812725 cites W2088340881 @default.
W3097812725 cites W2091441711 @default.
W3097812725 cites W2098166640 @default.
W3097812725 cites W2098490343 @default.
W3097812725 cites W2103698689 @default.
W3097812725 cites W2113449668 @default.
W3097812725 cites W2118004380 @default.
W3097812725 cites W2122930958 @default.
W3097812725 cites W2127965723 @default.
W3097812725 cites W2128547835 @default.
W3097812725 cites W2129326998 @default.
W3097812725 cites W2137403249 @default.
W3097812725 cites W2145042204 @default.
W3097812725 cites W2159519319 @default.
W3097812725 cites W2160719670 @default.
W3097812725 cites W2169127740 @default.
W3097812725 cites W2169934955 @default.
W3097812725 cites W2204612068 @default.
W3097812725 cites W2233186001 @default.
W3097812725 cites W2255467202 @default.
W3097812725 cites W2281603208 @default.
W3097812725 cites W2298403338 @default.
W3097812725 cites W2305231366 @default.
W3097812725 cites W2321167864 @default.
W3097812725 cites W2322384972 @default.
W3097812725 cites W2323914894 @default.
W3097812725 cites W2330774784 @default.
W3097812725 cites W2334245609 @default.
W3097812725 cites W2346446005 @default.
W3097812725 cites W2501967059 @default.
W3097812725 cites W2586116094 @default.
W3097812725 cites W2667345789 @default.
W3097812725 cites W2735220352 @default.
W3097812725 cites W2735350218 @default.
W3097812725 cites W2740351630 @default.
W3097812725 cites W2796572610 @default.
W3097812725 cites W2909240409 @default.
W3097812725 cites W2913793105 @default.
W3097812725 cites W2939209798 @default.
W3097812725 cites W2944515375 @default.
W3097812725 cites W2945484509 @default.
W3097812725 cites W2946547533 @default.
W3097812725 cites W2947023413 @default.
W3097812725 cites W2964546171 @default.
W3097812725 cites W2967367765 @default.
W3097812725 cites W2990763279 @default.
W3097812725 cites W2994941712 @default.
W3097812725 cites W2995598601 @default.
W3097812725 cites W2997398214 @default.
W3097812725 cites W3041037059 @default.
W3097812725 cites W3105876597 @default.
W3097812725 cites W4229794550 @default.
W3097812725 cites W2592649192 @default.
W3097812725 doi "https://doi.org/10.1002/celc.202001206" @default.
W3097812725 hasPublicationYear "2020" @default.
W3097812725 type Work @default.
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