A metal organic framework (MOF) based on the [Cu(4)I(4)DABCO(2)] cluster (DABCO = 1,4-diazabicyclo[2.2.2]octane), MOF 1, shows bright emission with a maximum at 556 nm and an emission quantum yield of 0.53 in the solid state. When the large cavities of the MOF are loaded during the synthesis with different amounts of ferrocene {FeCp2, [((5)-C5H5)(2)Fe-II]}, the luminescence of MOF 1 decreases with the increase in the ferrocene content, reaching an almost complete quenching for 3.5 wt.-% of cage loading, corresponding to the complete filling of the MOF cavities. When an electric potential is applied to the FeCp2@MOF 1 deposited onto an ITO glass, the (FeCp2)-Cp-II is oxidised to (FeCp2+)-Cp-III, and the MOF 1 emission is partially switched on again, indicating that a photoinduced electron-transfer reaction is contributing to the quenching process.
Paolo P. Mazzeo, Lucia Maini, Dario Braga, Giovanni Valenti, Francesco Paolucci, Massimo Marcaccio, et al. (2013). Switch On/Switch Off Signal in an MOF-Guest Crystalline Device. EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, 2013, 4459-4465 [10.1002/ejic.201300533].
Switch On/Switch Off Signal in an MOF-Guest Crystalline Device
MAZZEO, PAOLO PIO;MAINI, LUCIA;BRAGA, DARIO;VALENTI, GIOVANNI;PAOLUCCI, FRANCESCO;MARCACCIO, MASSIMO;
2013
Abstract
A metal organic framework (MOF) based on the [Cu(4)I(4)DABCO(2)] cluster (DABCO = 1,4-diazabicyclo[2.2.2]octane), MOF 1, shows bright emission with a maximum at 556 nm and an emission quantum yield of 0.53 in the solid state. When the large cavities of the MOF are loaded during the synthesis with different amounts of ferrocene {FeCp2, [((5)-C5H5)(2)Fe-II]}, the luminescence of MOF 1 decreases with the increase in the ferrocene content, reaching an almost complete quenching for 3.5 wt.-% of cage loading, corresponding to the complete filling of the MOF cavities. When an electric potential is applied to the FeCp2@MOF 1 deposited onto an ITO glass, the (FeCp2)-Cp-II is oxidised to (FeCp2+)-Cp-III, and the MOF 1 emission is partially switched on again, indicating that a photoinduced electron-transfer reaction is contributing to the quenching process.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.