SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2505087295> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2505087295 endingPage "7968" @default.
W2505087295 startingPage "7962" @default.
W2505087295 abstract "A new europium complex coordinated between a Eu(III) ion and an unsymmetrical diarylperfluorocyclopentene yields a light-controlled diarylethene–europium dyad, DAE@TpyEu(tta)3, whose photophysical properties can be reversibly switched by optical stimuli. When DAE@TpyEu(tta)3 is exposed to 365 nm UV light, an efficient intramolecular photochromic fluorescence resonance energy transfer (pc-FRET) occurs between the emission of the Eu3+ donor (D) and the absorption of the diarylethene acceptor (A) in closed-form DAE@TpyEu(tta)3 accompanied by luminescence quenching. However, the pc-FRET process could be effectively inhibited by visible light (λ > 600 nm) irradiation, and the lanthanide emission of DAE@TpyEu(tta)3 is rapidly recovered. Furthermore, this luminescent lanthanide molecular switch could serve as a highly reliable and sensitive “turn on” fluorescent marker in living cells irradiated by red light without any optical interference." @default.
W2505087295 created "2016-08-23" @default.
W2505087295 creator A5013218701 @default.
W2505087295 creator A5015740136 @default.
W2505087295 creator A5027833732 @default.
W2505087295 creator A5057337824 @default.
W2505087295 creator A5073772188 @default.
W2505087295 creator A5075610509 @default.
W2505087295 date "2016-07-22" @default.
W2505087295 modified "2023-10-16" @default.
W2505087295 title "Photocontrolled Reversible Luminescent Lanthanide Molecular Switch Based on a Diarylethene–Europium Dyad" @default.
W2505087295 cites W1574284111 @default.
W2505087295 cites W1965927692 @default.
W2505087295 cites W1971275758 @default.
W2505087295 cites W1974094715 @default.
W2505087295 cites W1976789689 @default.
W2505087295 cites W1978304105 @default.
W2505087295 cites W1978740296 @default.
W2505087295 cites W1982862945 @default.
W2505087295 cites W1996016850 @default.
W2505087295 cites W2002652338 @default.
W2505087295 cites W2003406884 @default.
W2505087295 cites W2004248055 @default.
W2505087295 cites W2012458727 @default.
W2505087295 cites W2014088965 @default.
W2505087295 cites W2018283074 @default.
W2505087295 cites W2018547816 @default.
W2505087295 cites W2020471807 @default.
W2505087295 cites W2024794609 @default.
W2505087295 cites W2029888650 @default.
W2505087295 cites W2044657903 @default.
W2505087295 cites W2046516226 @default.
W2505087295 cites W2047771713 @default.
W2505087295 cites W2054455698 @default.
W2505087295 cites W2055345569 @default.
W2505087295 cites W2059544310 @default.
W2505087295 cites W2062298407 @default.
W2505087295 cites W2063809883 @default.
W2505087295 cites W2065337418 @default.
W2505087295 cites W2067553118 @default.
W2505087295 cites W2069022257 @default.
W2505087295 cites W2069102403 @default.
W2505087295 cites W2071353898 @default.
W2505087295 cites W2071511321 @default.
W2505087295 cites W2077765533 @default.
W2505087295 cites W2079406835 @default.
W2505087295 cites W2106074437 @default.
W2505087295 cites W2126650458 @default.
W2505087295 cites W2144429202 @default.
W2505087295 cites W2150697053 @default.
W2505087295 cites W2157207470 @default.
W2505087295 cites W2159636613 @default.
W2505087295 cites W2298724722 @default.
W2505087295 cites W2316435244 @default.
W2505087295 cites W2321077391 @default.
W2505087295 cites W2321580252 @default.
W2505087295 cites W2323082192 @default.
W2505087295 cites W2333155750 @default.
W2505087295 cites W40944374 @default.
W2505087295 cites W4232197253 @default.
W2505087295 cites W4239898030 @default.
W2505087295 doi "https://doi.org/10.1021/acs.inorgchem.6b01009" @default.
W2505087295 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27447742" @default.
W2505087295 hasPublicationYear "2016" @default.
W2505087295 type Work @default.
W2505087295 sameAs 2505087295 @default.
W2505087295 citedByCount "40" @default.
W2505087295 countsByYear W25050872952016 @default.
W2505087295 countsByYear W25050872952017 @default.
W2505087295 countsByYear W25050872952018 @default.
W2505087295 countsByYear W25050872952019 @default.
W2505087295 countsByYear W25050872952020 @default.
W2505087295 countsByYear W25050872952021 @default.
W2505087295 countsByYear W25050872952022 @default.
W2505087295 countsByYear W25050872952023 @default.
W2505087295 crossrefType "journal-article" @default.
W2505087295 hasAuthorship W2505087295A5013218701 @default.
W2505087295 hasAuthorship W2505087295A5015740136 @default.
W2505087295 hasAuthorship W2505087295A5027833732 @default.
W2505087295 hasAuthorship W2505087295A5057337824 @default.
W2505087295 hasAuthorship W2505087295A5073772188 @default.
W2505087295 hasAuthorship W2505087295A5075610509 @default.
W2505087295 hasConcept C120665830 @default.
W2505087295 hasConcept C121332964 @default.
W2505087295 hasConcept C121745418 @default.
W2505087295 hasConcept C125287762 @default.
W2505087295 hasConcept C145148216 @default.
W2505087295 hasConcept C148869448 @default.
W2505087295 hasConcept C159985019 @default.
W2505087295 hasConcept C178790620 @default.
W2505087295 hasConcept C185592680 @default.
W2505087295 hasConcept C192562407 @default.
W2505087295 hasConcept C201770740 @default.
W2505087295 hasConcept C26873012 @default.
W2505087295 hasConcept C2779892579 @default.
W2505087295 hasConcept C2780258612 @default.
W2505087295 hasConcept C49040817 @default.
W2505087295 hasConcept C502696234 @default.