SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386562123> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W4386562123 endingPage "26587" @default.
W4386562123 startingPage "26575" @default.
W4386562123 abstract "Multibranched donor-acceptor derivatives exhibiting desirable photophysical properties are efficiently used in optoelectronic devices, in which the excited state relaxation dynamics of the derivatives control the efficiency of the devices. Here, the effect of intramolecular torsion on the excited state relaxation dynamics of tetraphenylpyrazine (TPP) derivatives in non-polar (toluene) and polar (THF) solvents is investigated by substituting the electron donor of morpholine (TPP-4MOP) and phenoxazine (TPP-4PHO) leading to the planar and twisted configurations, respectively, using femtosecond and nanosecond transient absorption spectroscopy. In the steady state, TPP-4MOP showed feeble emission (ΦF ∼0.03) due to the weak donor by the delocalization of electron density supported by theoretical optimization. The TPP-4PHO exhibited strong emission (ΦF ∼0.18) in toluene compared to that in THF, in which it showed a large Stokes shift (∼9691 cm-1) with low fluorescence quantum yield (ΦF ∼0.01). The observation of large Stokes shifts, inherent nature and theoretical calculations of TPP-4PHO suggest the twisting of the dihedral angle between tetraphenylpyrazine and phenoxazine in the excited state leading to the twisted intramolecular charge transfer state (TICT). The femtosecond and nanosecond transient absorption and picosecond time-resolved emission spectra of TPP-4PHO revealed the signature of the existence of both the partial TICT and TICT states in THF leading to the triplet state. Whereas in the case of TPP-4MOP, the transient absorption spectra showed the formation of the triplet state from the local excited state without the involvement of the TICT state. Aggregation studies of TPP-4PHO in a THF and water mixture reflect the elimination of the TICT state by the restriction of intramolecular torsion in the aggregates leading to an increase of 12-fold of the fluorescence intensity along with shifting of the maximum towards the blue region. These studies revealed that the excited state relaxation pathways of the derivatives are controlled by polarity-dependent torsional motion." @default.
W4386562123 created "2023-09-10" @default.
W4386562123 creator A5001831514 @default.
W4386562123 creator A5031645508 @default.
W4386562123 creator A5035491005 @default.
W4386562123 creator A5092830443 @default.
W4386562123 date "2023-01-01" @default.
W4386562123 modified "2023-10-18" @default.
W4386562123 title "Molecular Torsion Controls the Excited State Relaxation Pathways of Multibranched Tetraphenylpyrazines: Effect of Substitution of Morpholine Vs Phenoxazine" @default.
W4386562123 cites W1596848781 @default.
W4386562123 cites W1668566020 @default.
W4386562123 cites W1685392351 @default.
W4386562123 cites W1770761844 @default.
W4386562123 cites W1984510177 @default.
W4386562123 cites W2001768227 @default.
W4386562123 cites W2009684345 @default.
W4386562123 cites W2013994888 @default.
W4386562123 cites W2021243071 @default.
W4386562123 cites W2030083227 @default.
W4386562123 cites W2037061986 @default.
W4386562123 cites W2043711521 @default.
W4386562123 cites W2048460019 @default.
W4386562123 cites W2051024036 @default.
W4386562123 cites W2052567647 @default.
W4386562123 cites W2052894050 @default.
W4386562123 cites W2054002540 @default.
W4386562123 cites W2054947925 @default.
W4386562123 cites W2055442639 @default.
W4386562123 cites W2057742133 @default.
W4386562123 cites W2060800190 @default.
W4386562123 cites W2067667220 @default.
W4386562123 cites W2093643719 @default.
W4386562123 cites W2102158537 @default.
W4386562123 cites W2123846225 @default.
W4386562123 cites W2135937310 @default.
W4386562123 cites W2137490548 @default.
W4386562123 cites W2154338418 @default.
W4386562123 cites W2168036745 @default.
W4386562123 cites W2176083354 @default.
W4386562123 cites W2177603935 @default.
W4386562123 cites W2269445948 @default.
W4386562123 cites W2319139180 @default.
W4386562123 cites W2319373185 @default.
W4386562123 cites W2325579237 @default.
W4386562123 cites W2331222430 @default.
W4386562123 cites W2333004715 @default.
W4386562123 cites W2498063088 @default.
W4386562123 cites W2516491009 @default.
W4386562123 cites W2563186638 @default.
W4386562123 cites W2603208436 @default.
W4386562123 cites W2624652303 @default.
W4386562123 cites W2764176751 @default.
W4386562123 cites W2766127534 @default.
W4386562123 cites W2769764605 @default.
W4386562123 cites W2771155890 @default.
W4386562123 cites W2771690556 @default.
W4386562123 cites W2775253572 @default.
W4386562123 cites W2784519062 @default.
W4386562123 cites W2790710194 @default.
W4386562123 cites W2793080954 @default.
W4386562123 cites W2799566423 @default.
W4386562123 cites W2808373007 @default.
W4386562123 cites W2887464310 @default.
W4386562123 cites W2908688456 @default.
W4386562123 cites W2921044252 @default.
W4386562123 cites W2922175718 @default.
W4386562123 cites W2955575014 @default.
W4386562123 cites W2969673443 @default.
W4386562123 cites W2973748024 @default.
W4386562123 cites W3007834084 @default.
W4386562123 cites W3010637933 @default.
W4386562123 cites W3023372083 @default.
W4386562123 cites W3043654959 @default.
W4386562123 cites W3101908337 @default.
W4386562123 cites W3110190281 @default.
W4386562123 cites W3114625731 @default.
W4386562123 cites W3148585796 @default.
W4386562123 cites W3148715546 @default.
W4386562123 cites W3181987773 @default.
W4386562123 cites W3189379370 @default.
W4386562123 cites W3206932792 @default.
W4386562123 cites W3217728459 @default.
W4386562123 cites W4210530710 @default.
W4386562123 cites W4214684488 @default.
W4386562123 cites W4294990658 @default.
W4386562123 doi "https://doi.org/10.1039/d3cp03125j" @default.
W4386562123 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37753725" @default.
W4386562123 hasPublicationYear "2023" @default.
W4386562123 type Work @default.
W4386562123 citedByCount "0" @default.
W4386562123 crossrefType "journal-article" @default.
W4386562123 hasAuthorship W4386562123A5001831514 @default.
W4386562123 hasAuthorship W4386562123A5031645508 @default.
W4386562123 hasAuthorship W4386562123A5035491005 @default.
W4386562123 hasAuthorship W4386562123A5092830443 @default.
W4386562123 hasConcept C112887158 @default.
W4386562123 hasConcept C120665830 @default.
W4386562123 hasConcept C121332964 @default.