SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2996263804> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W2996263804 endingPage "3118" @default.
W2996263804 startingPage "3113" @default.
W2996263804 abstract "Abstract A series of twistacene‐functionalized donor (D)‐π‐acceptor (A) derivatives ( 2 – 5 ) have been designed and synthesized, in which twistacene can be regarded as a promising platform for electron‐rich systems for fluorescence emitters. The connecting modes and various acceptors are also examined to investigate the effect of structural changes on the photophysical, electrochemical, and thermal properties. The strong electron‐withdrawing capability of the arylboron‐modified benzonitrile unit can effectively separate the HOMO and LUMO energy levels of 4 / 5 , which is beneficial for the formation of thermally activated delayed fluorescence (TADF) molecules. Cyan and orange organic light‐emitting diodes based on 4 and 5 exhibit promising electroluminescence with a maximum brightness of 7643 cd m −2 for device‐4 and 14871 cd m −2 for device‐5." @default.
W2996263804 created "2019-12-26" @default.
W2996263804 creator A5003500852 @default.
W2996263804 creator A5039638660 @default.
W2996263804 creator A5040967829 @default.
W2996263804 creator A5050905118 @default.
W2996263804 creator A5077602098 @default.
W2996263804 creator A5082037654 @default.
W2996263804 creator A5087133920 @default.
W2996263804 date "2020-02-18" @default.
W2996263804 modified "2023-10-14" @default.
W2996263804 title "Electron‐Rich Twistacene‐Modified Arylboron Donor–Acceptor Systems: Synthesis, Photophysics, and Electroluminescence with Hot Exciton Response" @default.
W2996263804 cites W1965207322 @default.
W2996263804 cites W1972895241 @default.
W2996263804 cites W1975085631 @default.
W2996263804 cites W1988544796 @default.
W2996263804 cites W1989854295 @default.
W2996263804 cites W2007564349 @default.
W2996263804 cites W2010474338 @default.
W2996263804 cites W2014061243 @default.
W2996263804 cites W2016054241 @default.
W2996263804 cites W2021943047 @default.
W2996263804 cites W2029123862 @default.
W2996263804 cites W2031309147 @default.
W2996263804 cites W2054188729 @default.
W2996263804 cites W2075794059 @default.
W2996263804 cites W2078597820 @default.
W2996263804 cites W2107313493 @default.
W2996263804 cites W2121819699 @default.
W2996263804 cites W2146374853 @default.
W2996263804 cites W2150702843 @default.
W2996263804 cites W2151318082 @default.
W2996263804 cites W2152047537 @default.
W2996263804 cites W2154067684 @default.
W2996263804 cites W2157139891 @default.
W2996263804 cites W2214684766 @default.
W2996263804 cites W2261160658 @default.
W2996263804 cites W2291654467 @default.
W2996263804 cites W2336049799 @default.
W2996263804 cites W2587466492 @default.
W2996263804 cites W2598190672 @default.
W2996263804 cites W2620352295 @default.
W2996263804 cites W2734144155 @default.
W2996263804 cites W2738358808 @default.
W2996263804 cites W2771155890 @default.
W2996263804 cites W2772460041 @default.
W2996263804 cites W2786667919 @default.
W2996263804 cites W2793197161 @default.
W2996263804 cites W2810148143 @default.
W2996263804 cites W2883766801 @default.
W2996263804 cites W2886006646 @default.
W2996263804 cites W2894061755 @default.
W2996263804 cites W2904927222 @default.
W2996263804 cites W2908698489 @default.
W2996263804 cites W2932709592 @default.
W2996263804 cites W2941132044 @default.
W2996263804 cites W2949691058 @default.
W2996263804 cites W2953143732 @default.
W2996263804 cites W2964565367 @default.
W2996263804 cites W3021369874 @default.
W2996263804 cites W4230549224 @default.
W2996263804 cites W4233531806 @default.
W2996263804 cites W4236913828 @default.
W2996263804 cites W4237422029 @default.
W2996263804 cites W4241809980 @default.
W2996263804 cites W4242673348 @default.
W2996263804 doi "https://doi.org/10.1002/chem.201904590" @default.
W2996263804 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31845420" @default.
W2996263804 hasPublicationYear "2020" @default.
W2996263804 type Work @default.
W2996263804 sameAs 2996263804 @default.
W2996263804 citedByCount "8" @default.
W2996263804 countsByYear W29962638042020 @default.
W2996263804 countsByYear W29962638042021 @default.
W2996263804 countsByYear W29962638042022 @default.
W2996263804 countsByYear W29962638042023 @default.
W2996263804 crossrefType "journal-article" @default.
W2996263804 hasAuthorship W2996263804A5003500852 @default.
W2996263804 hasAuthorship W2996263804A5039638660 @default.
W2996263804 hasAuthorship W2996263804A5040967829 @default.
W2996263804 hasAuthorship W2996263804A5050905118 @default.
W2996263804 hasAuthorship W2996263804A5077602098 @default.
W2996263804 hasAuthorship W2996263804A5082037654 @default.
W2996263804 hasAuthorship W2996263804A5087133920 @default.
W2996263804 hasConcept C120665830 @default.
W2996263804 hasConcept C121332964 @default.
W2996263804 hasConcept C122776584 @default.
W2996263804 hasConcept C14158195 @default.
W2996263804 hasConcept C148869448 @default.
W2996263804 hasConcept C150759737 @default.
W2996263804 hasConcept C161790260 @default.
W2996263804 hasConcept C171250308 @default.
W2996263804 hasConcept C17729963 @default.
W2996263804 hasConcept C178790620 @default.
W2996263804 hasConcept C185592680 @default.
W2996263804 hasConcept C192562407 @default.
W2996263804 hasConcept C26873012 @default.
W2996263804 hasConcept C2778148179 @default.