FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3093582021> ?p ?o ?g. }

• W3093582021 endingPage "3497" @default.
• W3093582021 startingPage "3490" @default.
• W3093582021 abstract "Alloy-based materials are promising anodes for rechargeable batteries because of their higher theoretical capacities in comparison to graphite. Unfortunately, the huge volume changes during cycling cause serious structural degradation and undesired parasitic reactions with electrolytes, resulting in fragile solid-electrolyte interphase formation and serious capacity decay. This work proposes to mitigate the volume changes and suppress the interfacial reactivity of Ge anodes without sacrificing the interfacial Li+ transport, through in situ construction of an ultrarobust and lithiophilic Li-enriched Li–N nanoshield, which demonstrated improved chemical, electrochemical, mechanical, and environmental stability. Therefore, it can serve as a versatile interlayer to facilitate Li+ transport and effectively block the attack of electrolyte solvents, thus boosting the long-term cycle stability and fast charging capability of Ge anodes. This work offers an alternative methodology to tune the interfaces of other electrode materials as well by screening for more N-containing compounds that can react with Li+ during battery operation." @default.
• W3093582021 created "2020-10-29" @default.
• W3093582021 creator A5004506615 @default.
• W3093582021 creator A5011908287 @default.
• W3093582021 creator A5019400913 @default.
• W3093582021 creator A5020520113 @default.
• W3093582021 creator A5028818156 @default.
• W3093582021 creator A5030304672 @default.
• W3093582021 creator A5034911893 @default.
• W3093582021 creator A5036206050 @default.
• W3093582021 creator A5037127553 @default.
• W3093582021 creator A5038174756 @default.
• W3093582021 creator A5038320521 @default.
• W3093582021 creator A5046489455 @default.
• W3093582021 creator A5056703628 @default.
• W3093582021 creator A5070916053 @default.
• W3093582021 creator A5086865466 @default.
• W3093582021 creator A5089394488 @default.
• W3093582021 date "2020-10-19" @default.
• W3093582021 modified "2023-10-14" @default.
• W3093582021 title "<i>In Situ</i> Construction of an Ultrarobust and Lithiophilic Li-Enriched Li–N Nanoshield for High-Performance Ge-Based Anode Materials" @default.
• W3093582021 cites W1966522570 @default.
• W3093582021 cites W1972767018 @default.
• W3093582021 cites W1985794703 @default.
• W3093582021 cites W1987452691 @default.
• W3093582021 cites W1994397477 @default.
• W3093582021 cites W2000644490 @default.
• W3093582021 cites W2036408855 @default.
• W3093582021 cites W2071792132 @default.
• W3093582021 cites W2088645132 @default.
• W3093582021 cites W2096330142 @default.
• W3093582021 cites W2144274930 @default.
• W3093582021 cites W2174451885 @default.
• W3093582021 cites W2229989501 @default.
• W3093582021 cites W2281408479 @default.
• W3093582021 cites W2292306708 @default.
• W3093582021 cites W2316737910 @default.
• W3093582021 cites W2319598960 @default.
• W3093582021 cites W2343093142 @default.
• W3093582021 cites W2345907038 @default.
• W3093582021 cites W2402023846 @default.
• W3093582021 cites W2530291808 @default.
• W3093582021 cites W2774731903 @default.
• W3093582021 cites W2783562246 @default.
• W3093582021 cites W2789972066 @default.
• W3093582021 cites W2793744768 @default.
• W3093582021 cites W2800499613 @default.
• W3093582021 cites W2895630921 @default.
• W3093582021 cites W2898517219 @default.
• W3093582021 cites W2905742006 @default.
• W3093582021 cites W2922443589 @default.
• W3093582021 cites W2924836810 @default.
• W3093582021 cites W2933257952 @default.
• W3093582021 cites W2935594558 @default.
• W3093582021 cites W2937650145 @default.
• W3093582021 cites W2937830925 @default.
• W3093582021 cites W2944546848 @default.
• W3093582021 cites W2976918600 @default.
• W3093582021 cites W2995902706 @default.
• W3093582021 cites W2996591717 @default.
• W3093582021 cites W3012494568 @default.
• W3093582021 doi "https://doi.org/10.1021/acsenergylett.0c02121" @default.
• W3093582021 hasPublicationYear "2020" @default.
• W3093582021 type Work @default.
• W3093582021 sameAs 3093582021 @default.
• W3093582021 citedByCount "26" @default.
• W3093582021 countsByYear W30935820212021 @default.
• W3093582021 countsByYear W30935820212022 @default.
• W3093582021 countsByYear W30935820212023 @default.
• W3093582021 crossrefType "journal-article" @default.
• W3093582021 hasAuthorship W3093582021A5004506615 @default.
• W3093582021 hasAuthorship W3093582021A5011908287 @default.
• W3093582021 hasAuthorship W3093582021A5019400913 @default.
• W3093582021 hasAuthorship W3093582021A5020520113 @default.
• W3093582021 hasAuthorship W3093582021A5028818156 @default.
• W3093582021 hasAuthorship W3093582021A5030304672 @default.
• W3093582021 hasAuthorship W3093582021A5034911893 @default.
• W3093582021 hasAuthorship W3093582021A5036206050 @default.
• W3093582021 hasAuthorship W3093582021A5037127553 @default.
• W3093582021 hasAuthorship W3093582021A5038174756 @default.
• W3093582021 hasAuthorship W3093582021A5038320521 @default.
• W3093582021 hasAuthorship W3093582021A5046489455 @default.
• W3093582021 hasAuthorship W3093582021A5056703628 @default.
• W3093582021 hasAuthorship W3093582021A5070916053 @default.
• W3093582021 hasAuthorship W3093582021A5086865466 @default.
• W3093582021 hasAuthorship W3093582021A5089394488 @default.
• W3093582021 hasBestOaLocation W30935820213 @default.
• W3093582021 hasConcept C121332964 @default.
• W3093582021 hasConcept C127413603 @default.
• W3093582021 hasConcept C147789679 @default.
• W3093582021 hasConcept C159985019 @default.
• W3093582021 hasConcept C163258240 @default.
• W3093582021 hasConcept C171250308 @default.
• W3093582021 hasConcept C17525397 @default.
• W3093582021 hasConcept C185592680 @default.
• W3093582021 hasConcept C192562407 @default.
• W3093582021 hasConcept C2779679103 @default.
• W3093582021 hasConcept C2779698641 @default.

• next