SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2585148957> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2585148957 endingPage "1600223" @default.
W2585148957 startingPage "1600223" @default.
W2585148957 abstract "The capacity loading per unit area is of importance as specific capacity while evaluating the lithium-ion battery anode. However, the low conductivity of several advanced anode materials (such as molybdenum sulfide, MoS2) prohibits the wide application of materials. Nanostructural engineering becomes a key to overcome the obstacles. A one-step in situ conversion reaction is employed to synthesize molybdenum oxide (MoO2)–MoS2 core–shell nanoarchitectures (MoO2@MoS2) by partially sulfiding MoO2 into MoS2 using sulfur. The MoO2@MoS2 displays a 3D architecture constructed by hundreds of MoS2 ultrathin sheets with several layers arranged and fixed to an MoO2 particle vertically with the size in the range of 200–500 nm. MoO2 acts as the molybdenum source for the synthesis of MoS2, as well as the conductive substrate. The designed 3D architectures with empty space between MoS2 layers can prevent the damage originated from volume change of MoS2 undergoing charge/discharge process. The lithium storage capacities of the MoO2@MoS2 3D architectures are higher and the stability has been significantly improved compared to pure MoS2. 4 mAh cm−2 capacity loading of MoO2@MoS2 has been achieved with a specific capacity of more than 1000 mAh g−1." @default.
W2585148957 created "2017-02-10" @default.
W2585148957 creator A5007558752 @default.
W2585148957 creator A5010131886 @default.
W2585148957 creator A5014099657 @default.
W2585148957 creator A5025928722 @default.
W2585148957 creator A5030851263 @default.
W2585148957 creator A5035555253 @default.
W2585148957 creator A5038437800 @default.
W2585148957 creator A5046520425 @default.
W2585148957 creator A5087210747 @default.
W2585148957 date "2017-02-03" @default.
W2585148957 modified "2023-10-01" @default.
W2585148957 title "MoO<sub>2</sub>@MoS<sub>2</sub>Nanoarchitectures for High-Loading Advanced Lithium-Ion Battery Anodes" @default.
W2585148957 cites W1759262851 @default.
W2585148957 cites W1844741771 @default.
W2585148957 cites W1887690991 @default.
W2585148957 cites W1926896515 @default.
W2585148957 cites W1966221376 @default.
W2585148957 cites W1966816561 @default.
W2585148957 cites W1972930993 @default.
W2585148957 cites W1974729064 @default.
W2585148957 cites W1991685626 @default.
W2585148957 cites W1998298257 @default.
W2585148957 cites W2001613536 @default.
W2585148957 cites W2002210315 @default.
W2585148957 cites W2004340082 @default.
W2585148957 cites W2008496997 @default.
W2585148957 cites W2013935651 @default.
W2585148957 cites W2015387690 @default.
W2585148957 cites W2021435259 @default.
W2585148957 cites W2027155155 @default.
W2585148957 cites W2029817687 @default.
W2585148957 cites W2035453723 @default.
W2585148957 cites W2035497877 @default.
W2585148957 cites W2036117361 @default.
W2585148957 cites W2037020597 @default.
W2585148957 cites W2039705451 @default.
W2585148957 cites W2047135556 @default.
W2585148957 cites W2049757361 @default.
W2585148957 cites W2060315855 @default.
W2585148957 cites W2063635691 @default.
W2585148957 cites W2070183780 @default.
W2585148957 cites W2072073101 @default.
W2585148957 cites W2084840703 @default.
W2585148957 cites W2084951691 @default.
W2585148957 cites W2097054476 @default.
W2585148957 cites W2099875310 @default.
W2585148957 cites W2102338363 @default.
W2585148957 cites W2110320947 @default.
W2585148957 cites W2111214297 @default.
W2585148957 cites W2119192493 @default.
W2585148957 cites W2127895128 @default.
W2585148957 cites W2134252158 @default.
W2585148957 cites W2138132681 @default.
W2585148957 cites W2153876021 @default.
W2585148957 cites W2162063334 @default.
W2585148957 cites W2164255475 @default.
W2585148957 cites W2210917595 @default.
W2585148957 cites W2223946067 @default.
W2585148957 cites W2313963050 @default.
W2585148957 cites W2318751038 @default.
W2585148957 cites W2323724548 @default.
W2585148957 cites W2327400599 @default.
W2585148957 cites W2327538527 @default.
W2585148957 cites W2337235869 @default.
W2585148957 cites W2413561399 @default.
W2585148957 cites W3023435578 @default.
W2585148957 doi "https://doi.org/10.1002/ppsc.201600223" @default.
W2585148957 hasPublicationYear "2017" @default.
W2585148957 type Work @default.
W2585148957 sameAs 2585148957 @default.
W2585148957 citedByCount "48" @default.
W2585148957 countsByYear W25851489572017 @default.
W2585148957 countsByYear W25851489572018 @default.
W2585148957 countsByYear W25851489572019 @default.
W2585148957 countsByYear W25851489572020 @default.
W2585148957 countsByYear W25851489572021 @default.
W2585148957 countsByYear W25851489572022 @default.
W2585148957 countsByYear W25851489572023 @default.
W2585148957 crossrefType "journal-article" @default.
W2585148957 hasAuthorship W2585148957A5007558752 @default.
W2585148957 hasAuthorship W2585148957A5010131886 @default.
W2585148957 hasAuthorship W2585148957A5014099657 @default.
W2585148957 hasAuthorship W2585148957A5025928722 @default.
W2585148957 hasAuthorship W2585148957A5030851263 @default.
W2585148957 hasAuthorship W2585148957A5035555253 @default.
W2585148957 hasAuthorship W2585148957A5038437800 @default.
W2585148957 hasAuthorship W2585148957A5046520425 @default.
W2585148957 hasAuthorship W2585148957A5087210747 @default.
W2585148957 hasConcept C121332964 @default.
W2585148957 hasConcept C127413603 @default.
W2585148957 hasConcept C134018914 @default.
W2585148957 hasConcept C147789679 @default.
W2585148957 hasConcept C159985019 @default.
W2585148957 hasConcept C163258240 @default.
W2585148957 hasConcept C171250308 @default.
W2585148957 hasConcept C17525397 @default.