SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3067401913> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W3067401913 endingPage "8849" @default.
W3067401913 startingPage "8842" @default.
W3067401913 abstract "Silicon is a promising alloying anode for lithium-ion batteries because of its high capacity and low cost. However, its use has been hampered by mechanical failure arising from the large volume change upon cycling and by an insufficiently stable solid electrolyte interphase (SEI). SEI formation depends on the Si surface, which is often an oxide (SiOx). In this study we compare three different Si surfaces using Si wafers: 1.3 nm native SiOx, 1.4 nm thermally grown SiO2, and a SiOx-free surface. The oxide-free surface showed the worst electrochemical performance, never exceeding 94% Coulombic efficiency (CE). It also exhibited the thickest SEI and the highest overpotential for lithiation, which correlated with uninhibited electrolyte reduction and the incorporation of P–F species into the SEI. The oxide-coated surfaces performed significantly better, demonstrating a CE above 99% beyond the second cycle, low overpotential for lithiation, and a thinner and more stable SEI. The oxides lower the onset potential for electrolyte reduction and yield an SEI with fewer P–F species. However, it was found that the CE with the native oxide surface decays from the fifth cycle onward and correlates with a resurgence of electrolyte reduction. A 1–2 nm thermal SiO2 coating is optimum for achieving a stable SEI that minimizes side reactions and sustains efficient cycling." @default.
W3067401913 created "2020-08-24" @default.
W3067401913 creator A5005730457 @default.
W3067401913 creator A5008793845 @default.
W3067401913 creator A5041452457 @default.
W3067401913 creator A5048334317 @default.
W3067401913 creator A5054738892 @default.
W3067401913 creator A5061185133 @default.
W3067401913 creator A5077222632 @default.
W3067401913 date "2020-08-17" @default.
W3067401913 modified "2023-10-16" @default.
W3067401913 title "Enhanced Interfacial Stability of Si Anodes for Li-Ion Batteries via Surface SiO<sub>2</sub> Coating" @default.
W3067401913 cites W1983416481 @default.
W3067401913 cites W1986180969 @default.
W3067401913 cites W1991401244 @default.
W3067401913 cites W1996555234 @default.
W3067401913 cites W1996911500 @default.
W3067401913 cites W1998991681 @default.
W3067401913 cites W1999601020 @default.
W3067401913 cites W2017908888 @default.
W3067401913 cites W2018840783 @default.
W3067401913 cites W2042581501 @default.
W3067401913 cites W2044820119 @default.
W3067401913 cites W2047775723 @default.
W3067401913 cites W2064454797 @default.
W3067401913 cites W2071405879 @default.
W3067401913 cites W2085830551 @default.
W3067401913 cites W2091603137 @default.
W3067401913 cites W2093318643 @default.
W3067401913 cites W2098224539 @default.
W3067401913 cites W2103991088 @default.
W3067401913 cites W2139664242 @default.
W3067401913 cites W2152465105 @default.
W3067401913 cites W2154281786 @default.
W3067401913 cites W2212216818 @default.
W3067401913 cites W2230318597 @default.
W3067401913 cites W2316283113 @default.
W3067401913 cites W2318129969 @default.
W3067401913 cites W2319467984 @default.
W3067401913 cites W2321135336 @default.
W3067401913 cites W2336057479 @default.
W3067401913 cites W2338282169 @default.
W3067401913 cites W2344592845 @default.
W3067401913 cites W2403957028 @default.
W3067401913 cites W2614549068 @default.
W3067401913 cites W2737845625 @default.
W3067401913 cites W2756024054 @default.
W3067401913 cites W2808930057 @default.
W3067401913 cites W2885586866 @default.
W3067401913 cites W2896333540 @default.
W3067401913 cites W2898544555 @default.
W3067401913 cites W2908934295 @default.
W3067401913 cites W2980689865 @default.
W3067401913 cites W2984516645 @default.
W3067401913 cites W3012030506 @default.
W3067401913 cites W3014210996 @default.
W3067401913 cites W3024082493 @default.
W3067401913 cites W3024265611 @default.
W3067401913 cites W3104128373 @default.
W3067401913 doi "https://doi.org/10.1021/acsaem.0c01337" @default.
W3067401913 hasPublicationYear "2020" @default.
W3067401913 type Work @default.
W3067401913 sameAs 3067401913 @default.
W3067401913 citedByCount "35" @default.
W3067401913 countsByYear W30674019132020 @default.
W3067401913 countsByYear W30674019132021 @default.
W3067401913 countsByYear W30674019132022 @default.
W3067401913 countsByYear W30674019132023 @default.
W3067401913 crossrefType "journal-article" @default.
W3067401913 hasAuthorship W3067401913A5005730457 @default.
W3067401913 hasAuthorship W3067401913A5008793845 @default.
W3067401913 hasAuthorship W3067401913A5041452457 @default.
W3067401913 hasAuthorship W3067401913A5048334317 @default.
W3067401913 hasAuthorship W3067401913A5054738892 @default.
W3067401913 hasAuthorship W3067401913A5061185133 @default.
W3067401913 hasAuthorship W3067401913A5077222632 @default.
W3067401913 hasBestOaLocation W30674019133 @default.
W3067401913 hasConcept C127413603 @default.
W3067401913 hasConcept C130349721 @default.
W3067401913 hasConcept C134018914 @default.
W3067401913 hasConcept C147789679 @default.
W3067401913 hasConcept C160671074 @default.
W3067401913 hasConcept C171250308 @default.
W3067401913 hasConcept C17525397 @default.
W3067401913 hasConcept C185592680 @default.
W3067401913 hasConcept C186460083 @default.
W3067401913 hasConcept C191897082 @default.
W3067401913 hasConcept C192562407 @default.
W3067401913 hasConcept C2778541603 @default.
W3067401913 hasConcept C2779851234 @default.
W3067401913 hasConcept C2781448156 @default.
W3067401913 hasConcept C42360764 @default.
W3067401913 hasConcept C52859227 @default.
W3067401913 hasConcept C544956773 @default.
W3067401913 hasConcept C59061564 @default.
W3067401913 hasConcept C68801617 @default.
W3067401913 hasConcept C71924100 @default.
W3067401913 hasConcept C89395315 @default.