SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4310676327> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W4310676327 endingPage "140761" @default.
W4310676327 startingPage "140761" @default.
W4310676327 abstract "Dual functional mesoporous silica (mSiO2) colloidal electrolytes are promising to protect lithium anode and accelerate the reaction kinetics on cathode for lithium-oxygen batteries (LOBs). In this work, we achieved a significantly extended battery life (from 55 to 328 cycles) of LOB by using mSiO2 with a concentration of 80 mg L−1 in the colloidal electrolyte, compared with the one using conventional LiClO4/DMSO electrolyte. The rate performance and full-discharge capacity are also dramatically enhanced. The as-synthesized mSiO2 has a special ordered hexagonal mesoporous structure, with a high specific surface area of 1016.30 m2/g, which can form a stable colloid after mixing with 1.0 M LiClO4/DMSO. The side reactions of Li stripping/plating are suppressed, thus the cycling life performance of LOB is enhanced by relieving the attack of superoxide intermediates. The co-deposition of mesoporous mSiO2 and Li2O2 also effectively accelerated the decomposition of the discharge product by promoting the mass transfer at the cathode. This investigation of suppressing side reactions using non-aqueous electrolytes will shed a new light on the design and development of novel lithium metal batteries." @default.
W4310676327 created "2022-12-15" @default.
W4310676327 creator A5001008654 @default.
W4310676327 creator A5008570755 @default.
W4310676327 creator A5030306649 @default.
W4310676327 creator A5031191155 @default.
W4310676327 creator A5041985676 @default.
W4310676327 creator A5054819836 @default.
W4310676327 creator A5057337284 @default.
W4310676327 creator A5062182083 @default.
W4310676327 creator A5075433170 @default.
W4310676327 creator A5080918325 @default.
W4310676327 date "2023-01-01" @default.
W4310676327 modified "2023-10-12" @default.
W4310676327 title "Dual functional mesoporous silica colloidal electrolyte for lithium-oxygen batteries" @default.
W4310676327 cites W1982784029 @default.
W4310676327 cites W2032665807 @default.
W4310676327 cites W2033249715 @default.
W4310676327 cites W2042602209 @default.
W4310676327 cites W2044997702 @default.
W4310676327 cites W2047478995 @default.
W4310676327 cites W2062710357 @default.
W4310676327 cites W2104323305 @default.
W4310676327 cites W2123581428 @default.
W4310676327 cites W2125969838 @default.
W4310676327 cites W2158266251 @default.
W4310676327 cites W2162036593 @default.
W4310676327 cites W2329111659 @default.
W4310676327 cites W2332877177 @default.
W4310676327 cites W2342475091 @default.
W4310676327 cites W2346490328 @default.
W4310676327 cites W2410832223 @default.
W4310676327 cites W2487926566 @default.
W4310676327 cites W2509656467 @default.
W4310676327 cites W2554640775 @default.
W4310676327 cites W2591726129 @default.
W4310676327 cites W2606261581 @default.
W4310676327 cites W2613664334 @default.
W4310676327 cites W2771034491 @default.
W4310676327 cites W2788682240 @default.
W4310676327 cites W2792989624 @default.
W4310676327 cites W2793177869 @default.
W4310676327 cites W2793990383 @default.
W4310676327 cites W2807113412 @default.
W4310676327 cites W2810912755 @default.
W4310676327 cites W2886832268 @default.
W4310676327 cites W2888189507 @default.
W4310676327 cites W2907116183 @default.
W4310676327 cites W2909052273 @default.
W4310676327 cites W2921114080 @default.
W4310676327 cites W2929765607 @default.
W4310676327 cites W2996121127 @default.
W4310676327 cites W3090226500 @default.
W4310676327 cites W3093743215 @default.
W4310676327 cites W3120517551 @default.
W4310676327 cites W3153414661 @default.
W4310676327 cites W3169887285 @default.
W4310676327 cites W3176109558 @default.
W4310676327 cites W3177218467 @default.
W4310676327 cites W3210070088 @default.
W4310676327 cites W3213073067 @default.
W4310676327 cites W4200003815 @default.
W4310676327 cites W4200080390 @default.
W4310676327 cites W4200549511 @default.
W4310676327 cites W4206903239 @default.
W4310676327 cites W4283220455 @default.
W4310676327 doi "https://doi.org/10.1016/j.cej.2022.140761" @default.
W4310676327 hasPublicationYear "2023" @default.
W4310676327 type Work @default.
W4310676327 citedByCount "2" @default.
W4310676327 countsByYear W43106763272023 @default.
W4310676327 crossrefType "journal-article" @default.
W4310676327 hasAuthorship W4310676327A5001008654 @default.
W4310676327 hasAuthorship W4310676327A5008570755 @default.
W4310676327 hasAuthorship W4310676327A5030306649 @default.
W4310676327 hasAuthorship W4310676327A5031191155 @default.
W4310676327 hasAuthorship W4310676327A5041985676 @default.
W4310676327 hasAuthorship W4310676327A5054819836 @default.
W4310676327 hasAuthorship W4310676327A5057337284 @default.
W4310676327 hasAuthorship W4310676327A5062182083 @default.
W4310676327 hasAuthorship W4310676327A5075433170 @default.
W4310676327 hasAuthorship W4310676327A5080918325 @default.
W4310676327 hasBestOaLocation W43106763271 @default.
W4310676327 hasConcept C127413603 @default.
W4310676327 hasConcept C134018914 @default.
W4310676327 hasConcept C147789679 @default.
W4310676327 hasConcept C161790260 @default.
W4310676327 hasConcept C17525397 @default.
W4310676327 hasConcept C178790620 @default.
W4310676327 hasConcept C179104552 @default.
W4310676327 hasConcept C185592680 @default.
W4310676327 hasConcept C192562407 @default.
W4310676327 hasConcept C2777496208 @default.
W4310676327 hasConcept C2778541603 @default.
W4310676327 hasConcept C42360764 @default.
W4310676327 hasConcept C49110097 @default.
W4310676327 hasConcept C59789625 @default.
W4310676327 hasConcept C68801617 @default.