FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2798190447> ?p ?o ?g. }

• W2798190447 endingPage "3027" @default.
• W2798190447 startingPage "3019" @default.
• W2798190447 abstract "Solid electrolytes for solid-state Li-ion batteries are stimulating considerable interest for next-generation energy storage applications. The Li7La3Zr2O12 garnet-type solid electrolyte has received appreciable attention as a result of its high ionic conductivity. However, several challenges for the successful application of solid-state devices based on Li7La3Zr2O12 remain, such as dendrite formation and maintaining physical contact at interfaces over many Li intercalation/extraction cycles. Here, we apply first-principles density functional theory to provide insights into the Li7La3Zr2O12 particle morphology under various physical and chemical conditions. Our findings indicate Li segregation at the surfaces, suggesting Li-rich grain boundaries at typical synthesis and sintering conditions. On the basis of our results, we propose practical strategies to curb Li segregation at the Li7La3Zr2O12 interfaces. This approach can be extended to other Li-ion conductors for the design of practical energy storage devices." @default.
• W2798190447 created "2018-04-24" @default.
• W2798190447 creator A5005214293 @default.
• W2798190447 creator A5017072462 @default.
• W2798190447 creator A5025219648 @default.
• W2798190447 creator A5033978022 @default.
• W2798190447 creator A5034104657 @default.
• W2798190447 creator A5050313855 @default.
• W2798190447 date "2018-04-12" @default.
• W2798190447 modified "2023-10-03" @default.
• W2798190447 title "Particle Morphology and Lithium Segregation to Surfaces of the Li₇La₃Zr₂O₁₂ Solid Electrolyte" @default.
• W2798190447 cites W1124112037 @default.
• W2798190447 cites W125772472 @default.
• W2798190447 cites W1849024913 @default.
• W2798190447 cites W1849487101 @default.
• W2798190447 cites W1966354062 @default.
• W2798190447 cites W1967434586 @default.
• W2798190447 cites W1969095832 @default.
• W2798190447 cites W1974482139 @default.
• W2798190447 cites W1985987209 @default.
• W2798190447 cites W1992985800 @default.
• W2798190447 cites W1995215179 @default.
• W2798190447 cites W2006318126 @default.
• W2798190447 cites W2008426812 @default.
• W2798190447 cites W2012284610 @default.
• W2798190447 cites W2014202794 @default.
• W2798190447 cites W2015197254 @default.
• W2798190447 cites W2015578139 @default.
• W2798190447 cites W2017265410 @default.
• W2798190447 cites W2019368249 @default.
• W2798190447 cites W2019550185 @default.
• W2798190447 cites W2022298832 @default.
• W2798190447 cites W2067383841 @default.
• W2798190447 cites W2072938953 @default.
• W2798190447 cites W2089525884 @default.
• W2798190447 cites W2091888276 @default.
• W2798190447 cites W2099220766 @default.
• W2798190447 cites W2142102207 @default.
• W2798190447 cites W2143795526 @default.
• W2798190447 cites W2147069536 @default.
• W2798190447 cites W2152048732 @default.
• W2798190447 cites W2152277301 @default.
• W2798190447 cites W2153511586 @default.
• W2798190447 cites W2164362407 @default.
• W2798190447 cites W2190291396 @default.
• W2798190447 cites W2197550433 @default.
• W2798190447 cites W2211881944 @default.
• W2798190447 cites W2218468261 @default.
• W2798190447 cites W2237868774 @default.
• W2798190447 cites W2259357989 @default.
• W2798190447 cites W2267276271 @default.
• W2798190447 cites W2285838863 @default.
• W2798190447 cites W2310846280 @default.
• W2798190447 cites W2315478718 @default.
• W2798190447 cites W2319792789 @default.
• W2798190447 cites W2321696461 @default.
• W2798190447 cites W2398528971 @default.
• W2798190447 cites W2401710589 @default.
• W2798190447 cites W2503909983 @default.
• W2798190447 cites W2507796133 @default.
• W2798190447 cites W2518099942 @default.
• W2798190447 cites W2529435548 @default.
• W2798190447 cites W2530962190 @default.
• W2798190447 cites W2563615861 @default.
• W2798190447 cites W2578696327 @default.
• W2798190447 cites W2582115701 @default.
• W2798190447 cites W2582529763 @default.
• W2798190447 cites W2588140587 @default.
• W2798190447 cites W2601422260 @default.
• W2798190447 cites W2607463135 @default.
• W2798190447 cites W2622248414 @default.
• W2798190447 cites W2725925537 @default.
• W2798190447 cites W2728423602 @default.
• W2798190447 cites W2732358463 @default.
• W2798190447 cites W2743348143 @default.
• W2798190447 cites W2755636821 @default.
• W2798190447 cites W2756153861 @default.
• W2798190447 cites W2762234774 @default.
• W2798190447 cites W2775058775 @default.
• W2798190447 cites W2951299876 @default.
• W2798190447 doi "https://doi.org/10.1021/acs.chemmater.8b00649" @default.
• W2798190447 hasPublicationYear "2018" @default.
• W2798190447 type Work @default.
• W2798190447 sameAs 2798190447 @default.
• W2798190447 citedByCount "71" @default.
• W2798190447 countsByYear W27981904472018 @default.
• W2798190447 countsByYear W27981904472019 @default.
• W2798190447 countsByYear W27981904472020 @default.
• W2798190447 countsByYear W27981904472021 @default.
• W2798190447 countsByYear W27981904472022 @default.
• W2798190447 countsByYear W27981904472023 @default.
• W2798190447 crossrefType "journal-article" @default.
• W2798190447 hasAuthorship W2798190447A5005214293 @default.
• W2798190447 hasAuthorship W2798190447A5017072462 @default.
• W2798190447 hasAuthorship W2798190447A5025219648 @default.
• W2798190447 hasAuthorship W2798190447A5033978022 @default.
• W2798190447 hasAuthorship W2798190447A5034104657 @default.
• W2798190447 hasAuthorship W2798190447A5050313855 @default.

• next