SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3049272095> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W3049272095 abstract "Abstract Designing electrode materials with high reversible capacitance is the key to developing high‐performance pseudocapacitors. In this work, a novel ternary hybrid material, porous ZnS@Co 3 S 4 @NiO nanosheets are successfully constructed through a morphology reshaping enabled by a hydrothermal method followed by calcination. From a macroscopic view, the introduction of NiO changes the nanorod morphology of ZnS@Co 3 S 4 , and forms a porous nanosheet structure. The porous architecture with an increased specific surface area can promote the transport of ions and electrons, accelerate the diffusion of the electrolyte, and offer more active sites for electrochemical reactions. These advantages enhance the electrochemical properties of ZnS@Co 3 S 4 @NiO nanosheets when used as electrode materials for supercapacitors. ZnS@Co 3 S 4 @NiO nanosheets deliver an initial capacitance of 1418.7 F g −1 , and it also reaches 1550.9 F g −1 with a capacitance retention rate of 109.3% at 5 A g −1 , after 5000 cycles. However, ZnS@Co 3 S 4 nanorods only deliver an initial capacitance of 708.7 F g −1 , and maintain 716.4 F g −1 with a capacitance retention rate of 101.1% after 5000 cycles. These results show that the ZnS@Co 3 S 4 @NiO nanosheets are a promising electrode material for high‐performance pseudocapacitor electrode, and morphology reshaping is an effective strategy to design high‐performance pseudocapacitive materials." @default.
W3049272095 created "2020-08-21" @default.
W3049272095 creator A5012050092 @default.
W3049272095 creator A5052914554 @default.
W3049272095 creator A5054905132 @default.
W3049272095 creator A5060002817 @default.
W3049272095 creator A5064084098 @default.
W3049272095 creator A5075803946 @default.
W3049272095 date "2020-08-13" @default.
W3049272095 modified "2023-10-07" @default.
W3049272095 title "Construction of Porous ZnS@Co <sub>3</sub> S <sub>4</sub> @NiO Nanosheets Hybrid Materials for High‐Performance Pseudocapacitor Electrode by Morphology Reshaping" @default.
W3049272095 cites W1163373315 @default.
W3049272095 cites W1806223300 @default.
W3049272095 cites W1824952256 @default.
W3049272095 cites W1982717667 @default.
W3049272095 cites W2003064515 @default.
W3049272095 cites W2041140079 @default.
W3049272095 cites W2076278962 @default.
W3049272095 cites W2162677524 @default.
W3049272095 cites W2186571951 @default.
W3049272095 cites W2295212314 @default.
W3049272095 cites W2296593315 @default.
W3049272095 cites W2410443686 @default.
W3049272095 cites W2546445152 @default.
W3049272095 cites W2568019123 @default.
W3049272095 cites W2599506171 @default.
W3049272095 cites W2610204494 @default.
W3049272095 cites W2613679690 @default.
W3049272095 cites W2625512328 @default.
W3049272095 cites W2761284446 @default.
W3049272095 cites W2767042175 @default.
W3049272095 cites W2767685655 @default.
W3049272095 cites W2768322216 @default.
W3049272095 cites W2770420566 @default.
W3049272095 cites W2771136452 @default.
W3049272095 cites W2786654464 @default.
W3049272095 cites W2794116572 @default.
W3049272095 cites W2804980791 @default.
W3049272095 cites W2805848184 @default.
W3049272095 cites W2810764072 @default.
W3049272095 cites W2810817101 @default.
W3049272095 cites W2888366923 @default.
W3049272095 cites W2898813760 @default.
W3049272095 cites W2899791408 @default.
W3049272095 cites W2904184327 @default.
W3049272095 cites W2905356613 @default.
W3049272095 cites W2907468808 @default.
W3049272095 cites W2910543963 @default.
W3049272095 cites W2913397784 @default.
W3049272095 cites W2940812004 @default.
W3049272095 cites W2947072413 @default.
W3049272095 cites W2950595743 @default.
W3049272095 cites W2955281590 @default.
W3049272095 cites W2967199092 @default.
W3049272095 cites W2969862225 @default.
W3049272095 cites W2971965334 @default.
W3049272095 cites W2972036217 @default.
W3049272095 cites W2973412507 @default.
W3049272095 cites W2974878056 @default.
W3049272095 cites W2980103358 @default.
W3049272095 cites W2994163811 @default.
W3049272095 cites W2999865539 @default.
W3049272095 cites W3000102224 @default.
W3049272095 cites W3012125422 @default.
W3049272095 cites W3012171416 @default.
W3049272095 cites W3012240828 @default.
W3049272095 cites W3024825884 @default.
W3049272095 doi "https://doi.org/10.1002/adsu.202000090" @default.
W3049272095 hasPublicationYear "2020" @default.
W3049272095 type Work @default.
W3049272095 sameAs 3049272095 @default.
W3049272095 citedByCount "6" @default.
W3049272095 countsByYear W30492720952021 @default.
W3049272095 countsByYear W30492720952022 @default.
W3049272095 crossrefType "journal-article" @default.
W3049272095 hasAuthorship W3049272095A5012050092 @default.
W3049272095 hasAuthorship W3049272095A5052914554 @default.
W3049272095 hasAuthorship W3049272095A5054905132 @default.
W3049272095 hasAuthorship W3049272095A5060002817 @default.
W3049272095 hasAuthorship W3049272095A5064084098 @default.
W3049272095 hasAuthorship W3049272095A5075803946 @default.
W3049272095 hasConcept C126201875 @default.
W3049272095 hasConcept C127413603 @default.
W3049272095 hasConcept C147789679 @default.
W3049272095 hasConcept C161790260 @default.
W3049272095 hasConcept C171250308 @default.
W3049272095 hasConcept C17525397 @default.
W3049272095 hasConcept C185592680 @default.
W3049272095 hasConcept C192562407 @default.
W3049272095 hasConcept C30066665 @default.
W3049272095 hasConcept C42360764 @default.
W3049272095 hasConcept C51967427 @default.
W3049272095 hasConcept C52859227 @default.
W3049272095 hasConcept C55493867 @default.
W3049272095 hasConcept C6202296 @default.
W3049272095 hasConcept C6585489 @default.
W3049272095 hasConcept C68801617 @default.
W3049272095 hasConcept C7082614 @default.
W3049272095 hasConcept C74575197 @default.
W3049272095 hasConceptScore W3049272095C126201875 @default.