The Isoindazole Nucleus as a Donor in Fullerene-Based Dyads. Evidence for Electron Transfer

A series of isoindazole-C60 dyads 4a−c based on pyrazolino[60]fullerene have been prepared by 1,3-dipolar cycloadditions of the nitrile imines, generated in situ from hydrazones 3a−c, to C60. Molecular orbital calculations for 4b revealed that the electron distribution of the HOMO is located on the...

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Veröffentlicht in:	Journal of organic chemistry 2004-04, Vol.69 (8), p.2661-2668
Hauptverfasser:	Delgado, Juan L, de la Cruz, Pilar, López-Arza, Vicente, Langa, Fernando, Kimball, David B, Haley, Michael M, Araki, Yasuyuki, Ito, Osamu
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Sprache:	eng
Schlagworte:	Cross-disciplinary physics: materials science rheology Exact sciences and technology Fullerenes and related materials diamonds, graphite Materials science Physics Specific materials
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container_end_page	2668
container_issue	8
container_start_page	2661
container_title	Journal of organic chemistry
container_volume	69
creator	Delgado, Juan L de la Cruz, Pilar López-Arza, Vicente Langa, Fernando Kimball, David B Haley, Michael M Araki, Yasuyuki Ito, Osamu
description	A series of isoindazole-C60 dyads 4a−c based on pyrazolino[60]fullerene have been prepared by 1,3-dipolar cycloadditions of the nitrile imines, generated in situ from hydrazones 3a−c, to C60. Molecular orbital calculations for 4b revealed that the electron distribution of the HOMO is located on the isoindazole moiety, while the electron distribution of the LUMO is located on the C60 moiety. Electrochemical properties of the new dyads 4a−c show a similar electron affinity with respect to C60. Charge-transfer interactions in the ground state between the isoindazole ring and the fullerene cage are predicted by the molecular orbital calculations and confirmed by electrochemical studies in 4a,b. Steady-state fluorescence emission spectra of dyads 4a−c show that fluorescence intensities in polar benzonitrile solvent decrease with increasing electron-donating ability of the substituent attached on the isoindazole group. This was confirmed by the shortening of fluorescence lifetimes, from which intramolecular charge-separation rates and efficiencies via the excited singlet states of the fullerene moiety were evaluated. The yields of the triplet states in polar solvent decrease with the electron-donating ability, supporting the competitive formation of the charge-separated state with the intersystem crossing from the excited states. Thus, isoindazole[60]fullerene 4b can be considered a molecular switch with an AND logic gate.
doi_str_mv	10.1021/jo0499017
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Charge-transfer interactions in the ground state between the isoindazole ring and the fullerene cage are predicted by the molecular orbital calculations and confirmed by electrochemical studies in 4a,b. Steady-state fluorescence emission spectra of dyads 4a−c show that fluorescence intensities in polar benzonitrile solvent decrease with increasing electron-donating ability of the substituent attached on the isoindazole group. This was confirmed by the shortening of fluorescence lifetimes, from which intramolecular charge-separation rates and efficiencies via the excited singlet states of the fullerene moiety were evaluated. The yields of the triplet states in polar solvent decrease with the electron-donating ability, supporting the competitive formation of the charge-separated state with the intersystem crossing from the excited states. 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Evidence for Electron Transfer</title><title>Journal of organic chemistry</title><addtitle>J. Org. Chem</addtitle><description>A series of isoindazole-C60 dyads 4a−c based on pyrazolino[60]fullerene have been prepared by 1,3-dipolar cycloadditions of the nitrile imines, generated in situ from hydrazones 3a−c, to C60. Molecular orbital calculations for 4b revealed that the electron distribution of the HOMO is located on the isoindazole moiety, while the electron distribution of the LUMO is located on the C60 moiety. Electrochemical properties of the new dyads 4a−c show a similar electron affinity with respect to C60. Charge-transfer interactions in the ground state between the isoindazole ring and the fullerene cage are predicted by the molecular orbital calculations and confirmed by electrochemical studies in 4a,b. Steady-state fluorescence emission spectra of dyads 4a−c show that fluorescence intensities in polar benzonitrile solvent decrease with increasing electron-donating ability of the substituent attached on the isoindazole group. This was confirmed by the shortening of fluorescence lifetimes, from which intramolecular charge-separation rates and efficiencies via the excited singlet states of the fullerene moiety were evaluated. The yields of the triplet states in polar solvent decrease with the electron-donating ability, supporting the competitive formation of the charge-separated state with the intersystem crossing from the excited states. 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Evidence for Electron Transfer</atitle><jtitle>Journal of organic chemistry</jtitle><addtitle>J. Org. Chem</addtitle><date>2004-04-16</date><risdate>2004</risdate><volume>69</volume><issue>8</issue><spage>2661</spage><epage>2668</epage><pages>2661-2668</pages><issn>0022-3263</issn><eissn>1520-6904</eissn><coden>JOCEAH</coden><abstract>A series of isoindazole-C60 dyads 4a−c based on pyrazolino[60]fullerene have been prepared by 1,3-dipolar cycloadditions of the nitrile imines, generated in situ from hydrazones 3a−c, to C60. Molecular orbital calculations for 4b revealed that the electron distribution of the HOMO is located on the isoindazole moiety, while the electron distribution of the LUMO is located on the C60 moiety. Electrochemical properties of the new dyads 4a−c show a similar electron affinity with respect to C60. 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title	The Isoindazole Nucleus as a Donor in Fullerene-Based Dyads. Evidence for Electron Transfer
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