“…10–15,17 Meanwhile, the chemical modulation of organic luminophores through the integration of donor and acceptor (D–A) units into the skelton of luminophores is a promising way for regulating both photophysical and electrochemical features of luminophores because it realizes efficient intramolecular charge transfer (ICT) within the structures of lumonophore. 20–23…”
Dimethylaminonaphthalene-oxazaborine donor–acceptor molecules were developed as efficient electrochemiluminescent luminophores with tunable intramolecular charge transfer.
“…10–15,17 Meanwhile, the chemical modulation of organic luminophores through the integration of donor and acceptor (D–A) units into the skelton of luminophores is a promising way for regulating both photophysical and electrochemical features of luminophores because it realizes efficient intramolecular charge transfer (ICT) within the structures of lumonophore. 20–23…”
Dimethylaminonaphthalene-oxazaborine donor–acceptor molecules were developed as efficient electrochemiluminescent luminophores with tunable intramolecular charge transfer.
The successful integration of the SPECM measurement technique to provide deeper insights into the underlying mechanisms responsible for improved ECL performance is reported.
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