Intrachain Energy Migration to Weak Charge-Transfer State in Polyfluorene End-Capped with Naphthalimide Derivative
Polyfluorene end-capped with N-(2-benzothiazole)-1,8-naphthalimide (PF-BNI) is a highly fluorescent material with fluorescence emission modulated by solvent polarity. Its low energy excited state is assigned as a mixed configuration state between the singlet S1 of the fluorene backbone (F) with the...
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| Veröffentlicht in: | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Molecules, spectroscopy, kinetics, environment, & general theory, 2010-12, Vol.114 (47), p.12384-12390 |
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| container_title | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory |
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| creator | Simas, Emanuelle R Gehlen, Marcelo H Pinto, Melissa F. S Siqueira, Jonathas Misoguti, Lino |
| description | Polyfluorene end-capped with N-(2-benzothiazole)-1,8-naphthalimide (PF-BNI) is a highly fluorescent material with fluorescence emission modulated by solvent polarity. Its low energy excited state is assigned as a mixed configuration state between the singlet S1 of the fluorene backbone (F) with the charge transfer (CT) of the end group BNI. The triexponential fluorescence decays of PF-BNI were associated with fast energy migration to form an intrachain charge-transfer (ICCT) state, polyfluorene backbone decay, and ICCT deactivation. Time-resolved fluorescence anisotropy exhibited biexponential relaxation with a fast component of 12−16 ps in addition to a slow one in the range 0.8−1.4 ns depending on the solvent, showing that depolarization occurs from two different processes: energy migration to form the ICCT state and slow rotational diffusion motion of end segments at a longer time. Results from femtosecond transient absorption measurements agreed with anisotropy decay and showed a decay component of about 16 ps at 605 nm in PF-BNI ascribed to the conversion of S1 to the ICCT excited state. From the ratio of asymptotic and initial amplitudes of the transient absorption measurement, the efficiency of intrachain ICCT formation is estimated in 0.5, which means that, on average, half of the excited state formed in a BNI−(F) n −BNI chain with n = 32 is converted to its low energy intrachain charge-transfer (ICCT) state. |
| doi_str_mv | 10.1021/jp108168f |
| format | Article |
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S ; Siqueira, Jonathas ; Misoguti, Lino</creator><creatorcontrib>Simas, Emanuelle R ; Gehlen, Marcelo H ; Pinto, Melissa F. S ; Siqueira, Jonathas ; Misoguti, Lino</creatorcontrib><description>Polyfluorene end-capped with N-(2-benzothiazole)-1,8-naphthalimide (PF-BNI) is a highly fluorescent material with fluorescence emission modulated by solvent polarity. Its low energy excited state is assigned as a mixed configuration state between the singlet S1 of the fluorene backbone (F) with the charge transfer (CT) of the end group BNI. The triexponential fluorescence decays of PF-BNI were associated with fast energy migration to form an intrachain charge-transfer (ICCT) state, polyfluorene backbone decay, and ICCT deactivation. Time-resolved fluorescence anisotropy exhibited biexponential relaxation with a fast component of 12−16 ps in addition to a slow one in the range 0.8−1.4 ns depending on the solvent, showing that depolarization occurs from two different processes: energy migration to form the ICCT state and slow rotational diffusion motion of end segments at a longer time. Results from femtosecond transient absorption measurements agreed with anisotropy decay and showed a decay component of about 16 ps at 605 nm in PF-BNI ascribed to the conversion of S1 to the ICCT excited state. From the ratio of asymptotic and initial amplitudes of the transient absorption measurement, the efficiency of intrachain ICCT formation is estimated in 0.5, which means that, on average, half of the excited state formed in a BNI−(F) n −BNI chain with n = 32 is converted to its low energy intrachain charge-transfer (ICCT) state.</description><identifier>ISSN: 1089-5639</identifier><identifier>EISSN: 1520-5215</identifier><identifier>DOI: 10.1021/jp108168f</identifier><identifier>PMID: 21062073</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><subject>A: Dynamics, Clusters, Excited States</subject><ispartof>The journal of physical chemistry. 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Time-resolved fluorescence anisotropy exhibited biexponential relaxation with a fast component of 12−16 ps in addition to a slow one in the range 0.8−1.4 ns depending on the solvent, showing that depolarization occurs from two different processes: energy migration to form the ICCT state and slow rotational diffusion motion of end segments at a longer time. Results from femtosecond transient absorption measurements agreed with anisotropy decay and showed a decay component of about 16 ps at 605 nm in PF-BNI ascribed to the conversion of S1 to the ICCT excited state. From the ratio of asymptotic and initial amplitudes of the transient absorption measurement, the efficiency of intrachain ICCT formation is estimated in 0.5, which means that, on average, half of the excited state formed in a BNI−(F) n −BNI chain with n = 32 is converted to its low energy intrachain charge-transfer (ICCT) state.</description><subject>A: Dynamics, Clusters, Excited States</subject><issn>1089-5639</issn><issn>1520-5215</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2010</creationdate><recordtype>article</recordtype><recordid>eNptkE1P3DAURS1UBMOUBX8AeVOhLgL-iDPOsgpTijSUSp2qy-jFfpl4yCTBdqjm3zfVAKuu3l2ce6R3Cbng7JozwW-2A2eaZ7o-IjOuBEuU4OrDlJnOE5XJ_JSchbBljHEp0hNyKjjLBFvIGfH3XfRgGnAdXXboN3v64DYeous7Gnv6G-GJFg34DSZrD12o0dOfESLSqfGjb_d1O_YeO5zqNilgGNDSPy429DsMTWygdTtnkd6idy-T9gU_kuMa2oDnr3dOfn1drotvyerx7r74skpA8jQmWcrqRVoxKTADu0CthdbWplDlVlujFJe5zVVluFaGyTw1wtYmV1BluQBeyTm5OngH3z-PGGK5c8Fg20KH_RhKzQWXUrBsIj8fSOP7EDzW5eDdDvy-5Kz8t3D5vvDEXr5ax2qH9p18m3QCPh0AMKHc9qPvpif_I_oLa4CDKg</recordid><startdate>20101202</startdate><enddate>20101202</enddate><creator>Simas, Emanuelle R</creator><creator>Gehlen, Marcelo H</creator><creator>Pinto, Melissa F. 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A</addtitle><date>2010-12-02</date><risdate>2010</risdate><volume>114</volume><issue>47</issue><spage>12384</spage><epage>12390</epage><pages>12384-12390</pages><issn>1089-5639</issn><eissn>1520-5215</eissn><abstract>Polyfluorene end-capped with N-(2-benzothiazole)-1,8-naphthalimide (PF-BNI) is a highly fluorescent material with fluorescence emission modulated by solvent polarity. Its low energy excited state is assigned as a mixed configuration state between the singlet S1 of the fluorene backbone (F) with the charge transfer (CT) of the end group BNI. The triexponential fluorescence decays of PF-BNI were associated with fast energy migration to form an intrachain charge-transfer (ICCT) state, polyfluorene backbone decay, and ICCT deactivation. Time-resolved fluorescence anisotropy exhibited biexponential relaxation with a fast component of 12−16 ps in addition to a slow one in the range 0.8−1.4 ns depending on the solvent, showing that depolarization occurs from two different processes: energy migration to form the ICCT state and slow rotational diffusion motion of end segments at a longer time. Results from femtosecond transient absorption measurements agreed with anisotropy decay and showed a decay component of about 16 ps at 605 nm in PF-BNI ascribed to the conversion of S1 to the ICCT excited state. 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| subjects | A: Dynamics, Clusters, Excited States |
| title | Intrachain Energy Migration to Weak Charge-Transfer State in Polyfluorene End-Capped with Naphthalimide Derivative |
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