SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2300692198> ?p ?o ?g. }

Showing items 1 to 100 of ±107 with 100 items per page.

W2300692198 endingPage "2416" @default.
W2300692198 startingPage "2408" @default.
W2300692198 abstract "We report the facile synthesis of new naphthoquinone (NQ) derivatives for use in lithium-organic batteries to improve performance. The rational design of these NQ derivatives is based on theoretical calculations. Our lithium-organic batteries demonstrate remarkable charge–discharge properties, for example, a high discharge capacity of 250 mAh g–1 (363 mAh cm–3), discharge potential plateaus in the range of 2.3–2.5 V, and 99% capacity retention after 500 cycles at 0.2C. In particular, the batteries had excellent rate performance up to 50C with reversible redox behavior, unlike most other organic cathode materials. The key to success was a simple molecular substitution, addition of amino groups at the 2- and 3- positions of the NQ ring, yielding 2,3-diamino-1,4-naphthoquinone (DANQ). DANQ has an exceptionally low band gap of 2.7 eV and greater than 20-fold enhancement in the lithium diffusion rate compared to unmodified NQ. The fundamental shortcoming of the organic molecules, i.e., their solubility in the ..." @default.
W2300692198 created "2016-06-24" @default.
W2300692198 creator A5022028069 @default.
W2300692198 creator A5042482017 @default.
W2300692198 creator A5057845834 @default.
W2300692198 date "2016-03-18" @default.
W2300692198 modified "2023-10-03" @default.
W2300692198 title "Long-Life, High-Rate Lithium-Organic Batteries Based on Naphthoquinone Derivatives" @default.
W2300692198 cites W1970996323 @default.
W2300692198 cites W1978906971 @default.
W2300692198 cites W1985013794 @default.
W2300692198 cites W1988445996 @default.
W2300692198 cites W1992379425 @default.
W2300692198 cites W1995113720 @default.
W2300692198 cites W1997925983 @default.
W2300692198 cites W1998062017 @default.
W2300692198 cites W2000581562 @default.
W2300692198 cites W2005853164 @default.
W2300692198 cites W2009482845 @default.
W2300692198 cites W2013712126 @default.
W2300692198 cites W2018554481 @default.
W2300692198 cites W2021172010 @default.
W2300692198 cites W2026144501 @default.
W2300692198 cites W2032891657 @default.
W2300692198 cites W2042707645 @default.
W2300692198 cites W2055408369 @default.
W2300692198 cites W2057022187 @default.
W2300692198 cites W2058170407 @default.
W2300692198 cites W2058698375 @default.
W2300692198 cites W2065510206 @default.
W2300692198 cites W2077835971 @default.
W2300692198 cites W2078871649 @default.
W2300692198 cites W2081358536 @default.
W2300692198 cites W2081981060 @default.
W2300692198 cites W2083487084 @default.
W2300692198 cites W2085458263 @default.
W2300692198 cites W2088542529 @default.
W2300692198 cites W2090448040 @default.
W2300692198 cites W2091875228 @default.
W2300692198 cites W2104242056 @default.
W2300692198 cites W2116281419 @default.
W2300692198 cites W2118579916 @default.
W2300692198 cites W2125261820 @default.
W2300692198 cites W2125827894 @default.
W2300692198 cites W2134539805 @default.
W2300692198 cites W2136822440 @default.
W2300692198 cites W2136893687 @default.
W2300692198 cites W2137036942 @default.
W2300692198 cites W2149914656 @default.
W2300692198 cites W2157914832 @default.
W2300692198 cites W2159915276 @default.
W2300692198 cites W2313615586 @default.
W2300692198 cites W2316455396 @default.
W2300692198 cites W2316839443 @default.
W2300692198 cites W2318157230 @default.
W2300692198 cites W2328285822 @default.
W2300692198 cites W2329364422 @default.
W2300692198 cites W2332259560 @default.
W2300692198 doi "https://doi.org/10.1021/acs.chemmater.6b00624" @default.
W2300692198 hasPublicationYear "2016" @default.
W2300692198 type Work @default.
W2300692198 sameAs 2300692198 @default.
W2300692198 citedByCount "123" @default.
W2300692198 countsByYear W23006921982016 @default.
W2300692198 countsByYear W23006921982017 @default.
W2300692198 countsByYear W23006921982018 @default.
W2300692198 countsByYear W23006921982019 @default.
W2300692198 countsByYear W23006921982020 @default.
W2300692198 countsByYear W23006921982021 @default.
W2300692198 countsByYear W23006921982022 @default.
W2300692198 countsByYear W23006921982023 @default.
W2300692198 crossrefType "journal-article" @default.
W2300692198 hasAuthorship W2300692198A5022028069 @default.
W2300692198 hasAuthorship W2300692198A5042482017 @default.
W2300692198 hasAuthorship W2300692198A5057845834 @default.
W2300692198 hasConcept C134018914 @default.
W2300692198 hasConcept C185592680 @default.
W2300692198 hasConcept C192562407 @default.
W2300692198 hasConcept C2778541603 @default.
W2300692198 hasConcept C71924100 @default.
W2300692198 hasConceptScore W2300692198C134018914 @default.
W2300692198 hasConceptScore W2300692198C185592680 @default.
W2300692198 hasConceptScore W2300692198C192562407 @default.
W2300692198 hasConceptScore W2300692198C2778541603 @default.
W2300692198 hasConceptScore W2300692198C71924100 @default.
W2300692198 hasFunder F4320322120 @default.
W2300692198 hasIssue "7" @default.
W2300692198 hasLocation W23006921981 @default.
W2300692198 hasOpenAccess W2300692198 @default.
W2300692198 hasPrimaryLocation W23006921981 @default.
W2300692198 hasRelatedWork W1965117275 @default.
W2300692198 hasRelatedWork W1981546489 @default.
W2300692198 hasRelatedWork W1984727199 @default.
W2300692198 hasRelatedWork W2059307528 @default.
W2300692198 hasRelatedWork W2314969033 @default.
W2300692198 hasRelatedWork W2899084033 @default.
W2300692198 hasRelatedWork W2949788409 @default.
W2300692198 hasRelatedWork W2951824729 @default.