SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4381469962> ?p ?o ?g. }

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

W4381469962 endingPage "31583" @default.
W4381469962 startingPage "31572" @default.
W4381469962 abstract "All-solid-state lithium metal batteries (ASSLMBs), as a candidate for advanced energy storage devices, invite an abundance of interest due to the merits of high specific energy density and eminent safety. Nevertheless, issues of overwhelming lithium dendrite growth and poor interfacial contact still limit the practical application of ASSLMBs. Herein, we designed and fabricated a double-layer composite solid electrolyte (CSE), namely, PVDF-LiTFSI-Li1.3Al0.3Ti1.7(PO4)3/PVDF-LiTFSI-h-BN (denoted as PLLB), for ASSLMBs. The reduction-tolerant PVDF-LiTFSI-h-BN (denoted as PLB) layer of the CSE tightly contacts with the Li metal anode to avoid the reduction of LATP by the electrode and participates in the formation of a stable SEI film using Li3N. Meanwhile, the oxidation-resistance and ion-conductive PVDF-LiTFSI- LATP (denoted as PLA) layer facing the cathode can reduce the interfacial impedance by facilitating ionic migration. With the synergistic effect of PLA and PLB, the Li/Li symmetric cells with sandwich-type electrolytes (PLB/PLA/PLB) can operate for 1500 h with ultralong cycling stability at 0.1 mA cm-2. Additionally, the LiFePO4/Li cell with PLLB maintains satisfactory capacity retention of 88.2% after 250 cycles. This novel double-layer electrolyte offers an effective approach to achieving fully commercialized ASSLMBs." @default.
W4381469962 created "2023-06-22" @default.
W4381469962 creator A5001389781 @default.
W4381469962 creator A5007116925 @default.
W4381469962 creator A5007203915 @default.
W4381469962 creator A5032325635 @default.
W4381469962 creator A5033299957 @default.
W4381469962 creator A5050914571 @default.
W4381469962 creator A5054085780 @default.
W4381469962 creator A5084598767 @default.
W4381469962 creator A5089699624 @default.
W4381469962 creator A5090437754 @default.
W4381469962 date "2023-06-21" @default.
W4381469962 modified "2023-10-13" @default.
W4381469962 title "Double-Layer Electrolyte Boosts Cycling Stability of All-Solid-State Li Metal Batteries" @default.
W4381469962 cites W2785887360 @default.
W4381469962 cites W2792989624 @default.
W4381469962 cites W2796963093 @default.
W4381469962 cites W2811234323 @default.
W4381469962 cites W2888597210 @default.
W4381469962 cites W2889032965 @default.
W4381469962 cites W2911584947 @default.
W4381469962 cites W2938899632 @default.
W4381469962 cites W2963149835 @default.
W4381469962 cites W2980353091 @default.
W4381469962 cites W2980440883 @default.
W4381469962 cites W2989629319 @default.
W4381469962 cites W3000500545 @default.
W4381469962 cites W3006739865 @default.
W4381469962 cites W3019974812 @default.
W4381469962 cites W3036705049 @default.
W4381469962 cites W3044483743 @default.
W4381469962 cites W3047395703 @default.
W4381469962 cites W3080576808 @default.
W4381469962 cites W3085006675 @default.
W4381469962 cites W3103451984 @default.
W4381469962 cites W3110893288 @default.
W4381469962 cites W3118271628 @default.
W4381469962 cites W3135019010 @default.
W4381469962 cites W3155087686 @default.
W4381469962 cites W3159019045 @default.
W4381469962 cites W3163814213 @default.
W4381469962 cites W3164750823 @default.
W4381469962 cites W3196638913 @default.
W4381469962 cites W3203227616 @default.
W4381469962 cites W3204460992 @default.
W4381469962 cites W4200293169 @default.
W4381469962 cites W4220777184 @default.
W4381469962 cites W4220796729 @default.
W4381469962 cites W4224444054 @default.
W4381469962 cites W4238865623 @default.
W4381469962 cites W4280552932 @default.
W4381469962 cites W4280575125 @default.
W4381469962 cites W4281788749 @default.
W4381469962 cites W4283464734 @default.
W4381469962 cites W4283589526 @default.
W4381469962 cites W4283793469 @default.
W4381469962 cites W4288456855 @default.
W4381469962 cites W4292550224 @default.
W4381469962 cites W4293087202 @default.
W4381469962 cites W4293581603 @default.
W4381469962 cites W4293801248 @default.
W4381469962 cites W4308029148 @default.
W4381469962 cites W4312041858 @default.
W4381469962 cites W4313405518 @default.
W4381469962 cites W4313479379 @default.
W4381469962 cites W4313529640 @default.
W4381469962 cites W4319304537 @default.
W4381469962 cites W4320716703 @default.
W4381469962 cites W4323050441 @default.
W4381469962 cites W4324258264 @default.
W4381469962 cites W4324394322 @default.
W4381469962 doi "https://doi.org/10.1021/acsami.3c06118" @default.
W4381469962 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37341215" @default.
W4381469962 hasPublicationYear "2023" @default.
W4381469962 type Work @default.
W4381469962 citedByCount "0" @default.
W4381469962 crossrefType "journal-article" @default.
W4381469962 hasAuthorship W4381469962A5001389781 @default.
W4381469962 hasAuthorship W4381469962A5007116925 @default.
W4381469962 hasAuthorship W4381469962A5007203915 @default.
W4381469962 hasAuthorship W4381469962A5032325635 @default.
W4381469962 hasAuthorship W4381469962A5033299957 @default.
W4381469962 hasAuthorship W4381469962A5050914571 @default.
W4381469962 hasAuthorship W4381469962A5054085780 @default.
W4381469962 hasAuthorship W4381469962A5084598767 @default.
W4381469962 hasAuthorship W4381469962A5089699624 @default.
W4381469962 hasAuthorship W4381469962A5090437754 @default.
W4381469962 hasConcept C109883240 @default.
W4381469962 hasConcept C119599485 @default.
W4381469962 hasConcept C121332964 @default.
W4381469962 hasConcept C127413603 @default.
W4381469962 hasConcept C134018914 @default.
W4381469962 hasConcept C147789679 @default.
W4381469962 hasConcept C171250308 @default.
W4381469962 hasConcept C17525397 @default.
W4381469962 hasConcept C185592680 @default.
W4381469962 hasConcept C192562407 @default.