SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313225110> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4313225110 endingPage "21" @default.
W4313225110 startingPage "21" @default.
W4313225110 abstract "Uncontrollable sodium dendrite growth results in poor cycling performance and severe safety issues, hindering practical applications of sodium metal batteries (SMBs). To stabilize sodium metal anodes (SMAs), various strategies have been developed including employing anode hosts and electrolyte additives to establish protective layers. Nevertheless, the understanding of interaction mechanisms between protective materials and SMAs is still limited, which is crucial for the rational design of protective materials. In this work, we investigated the interaction mechanism between sodium metal and sulfur-containing functional groups with comparative model systems of α-sexithiophene (6T) and p-sexiphenyl (6P) through in-situ photoelectron spectroscopy investigations and density functional theory (DFT) calculations. Our results show that sodium atoms tend to interact with sulfur atoms and their connected carbon atoms simultaneously as well as the aromatic carbon atoms of the end groups of 6T molecules, while no chemical interaction between Na and 6P molecules is observed. The observed sulfurization-induced sodiophilic sites can shed light on the rational design of sulfur-containing protective materials and the relevant interface engineering to stabilize SMAs." @default.
W4313225110 created "2023-01-06" @default.
W4313225110 creator A5012765828 @default.
W4313225110 creator A5017211677 @default.
W4313225110 creator A5017541508 @default.
W4313225110 creator A5018444705 @default.
W4313225110 creator A5055746173 @default.
W4313225110 creator A5076403778 @default.
W4313225110 creator A5089210692 @default.
W4313225110 date "2022-12-27" @default.
W4313225110 modified "2023-09-26" @default.
W4313225110 title "In-Situ Photoelectron Spectroscopy Investigation of Sulfurization-Induced Sodiophilic Sites with Model Systems of α-sexithiophene and p-sexiphenyl" @default.
W4313225110 cites W1975669044 @default.
W4313225110 cites W1979583791 @default.
W4313225110 cites W1986179778 @default.
W4313225110 cites W2000193937 @default.
W4313225110 cites W2007159325 @default.
W4313225110 cites W2009782179 @default.
W4313225110 cites W2011779115 @default.
W4313225110 cites W2016483918 @default.
W4313225110 cites W2016838860 @default.
W4313225110 cites W2020213064 @default.
W4313225110 cites W2024417712 @default.
W4313225110 cites W2027351857 @default.
W4313225110 cites W2028250890 @default.
W4313225110 cites W2047511726 @default.
W4313225110 cites W2064998300 @default.
W4313225110 cites W2066151171 @default.
W4313225110 cites W2070381410 @default.
W4313225110 cites W2084684328 @default.
W4313225110 cites W2096783572 @default.
W4313225110 cites W2148035837 @default.
W4313225110 cites W2148284063 @default.
W4313225110 cites W2265160803 @default.
W4313225110 cites W2329591764 @default.
W4313225110 cites W2341894171 @default.
W4313225110 cites W2520699066 @default.
W4313225110 cites W2581488902 @default.
W4313225110 cites W2591984778 @default.
W4313225110 cites W2762979234 @default.
W4313225110 cites W2781895724 @default.
W4313225110 cites W2794416179 @default.
W4313225110 cites W2805989699 @default.
W4313225110 cites W2906983428 @default.
W4313225110 cites W2947596189 @default.
W4313225110 cites W2951340903 @default.
W4313225110 cites W2955948385 @default.
W4313225110 cites W2962886988 @default.
W4313225110 cites W2973484082 @default.
W4313225110 cites W2974806368 @default.
W4313225110 cites W3007350830 @default.
W4313225110 cites W3031546475 @default.
W4313225110 cites W3034533777 @default.
W4313225110 cites W3087683102 @default.
W4313225110 cites W3101655375 @default.
W4313225110 cites W3107874479 @default.
W4313225110 cites W3117051516 @default.
W4313225110 cites W3133055577 @default.
W4313225110 cites W3139122149 @default.
W4313225110 cites W3174066782 @default.
W4313225110 cites W3181000244 @default.
W4313225110 cites W3191496722 @default.
W4313225110 cites W3201058018 @default.
W4313225110 cites W3207020873 @default.
W4313225110 cites W3216397299 @default.
W4313225110 cites W4205317664 @default.
W4313225110 cites W4207056669 @default.
W4313225110 cites W4210410924 @default.
W4313225110 cites W4229853502 @default.
W4313225110 cites W4231266680 @default.
W4313225110 cites W4250099308 @default.
W4313225110 cites W4293644278 @default.
W4313225110 cites W4307139636 @default.
W4313225110 doi "https://doi.org/10.3390/batteries9010021" @default.
W4313225110 hasPublicationYear "2022" @default.
W4313225110 type Work @default.
W4313225110 citedByCount "0" @default.
W4313225110 crossrefType "journal-article" @default.
W4313225110 hasAuthorship W4313225110A5012765828 @default.
W4313225110 hasAuthorship W4313225110A5017211677 @default.
W4313225110 hasAuthorship W4313225110A5017541508 @default.
W4313225110 hasAuthorship W4313225110A5018444705 @default.
W4313225110 hasAuthorship W4313225110A5055746173 @default.
W4313225110 hasAuthorship W4313225110A5076403778 @default.
W4313225110 hasAuthorship W4313225110A5089210692 @default.
W4313225110 hasBestOaLocation W43132251101 @default.
W4313225110 hasConcept C104779481 @default.
W4313225110 hasConcept C127413603 @default.
W4313225110 hasConcept C140205800 @default.
W4313225110 hasConcept C147597530 @default.
W4313225110 hasConcept C147789679 @default.
W4313225110 hasConcept C152365726 @default.
W4313225110 hasConcept C159467904 @default.
W4313225110 hasConcept C159985019 @default.
W4313225110 hasConcept C171250308 @default.
W4313225110 hasConcept C17525397 @default.
W4313225110 hasConcept C175708663 @default.
W4313225110 hasConcept C178790620 @default.