Nitrogen boron co-doped TiO2 prepared via sol-gel synthesis and active under visible light, contains two types of paramagnetic extrinsic defects, both exhibiting a well resolved EPR spectrum. The first center is the well characterized [NiO](center dot) species (i = interstitial) also present in N-doped TiO2, while the second one involves both N and B. This latter center (labeled [NOB](center dot)) exhibits well resolved EPR spectra obtained using either 14 N or 15 N which show a high spin density in a N 2p orbital. The structure of the [NOB](center dot) species is different from that previously proposed in the literature and is actually based on the presence of interstitial N and B atoms both bound to the same lattice oxygen ion. The interstitial B is also linked to two other lattice oxygen ions reproducing the trigonal planar structure typical of boron compounds. The energy level of the [NOB](center dot) center lies near the edge of the valence band of TiO2 and, as such, does not contribute to the visible light absorption. However, [NOB](center dot) can easily trap one electron generating the [NOB](center dot) diamagnetic center which introduces a gap state at about 0.4 eV above the top of the valence band. This latter species can contribute to the visible light activity.

Czoska, A., Livraghi, S., Paganini, M., Giamello, E., DI VALENTIN, C., Pacchioni, G. (2011). The nitrogen-boron paramagnetic center in visible light sensitized N-B co-doped TiO2. Experimental and theoretical characterization. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 13(1), 136-143 [10.1039/c0cp00143k].

The nitrogen-boron paramagnetic center in visible light sensitized N-B co-doped TiO2. Experimental and theoretical characterization

DI VALENTIN, CRISTIANA;PACCHIONI, GIANFRANCO
2011

Abstract

Nitrogen boron co-doped TiO2 prepared via sol-gel synthesis and active under visible light, contains two types of paramagnetic extrinsic defects, both exhibiting a well resolved EPR spectrum. The first center is the well characterized [NiO](center dot) species (i = interstitial) also present in N-doped TiO2, while the second one involves both N and B. This latter center (labeled [NOB](center dot)) exhibits well resolved EPR spectra obtained using either 14 N or 15 N which show a high spin density in a N 2p orbital. The structure of the [NOB](center dot) species is different from that previously proposed in the literature and is actually based on the presence of interstitial N and B atoms both bound to the same lattice oxygen ion. The interstitial B is also linked to two other lattice oxygen ions reproducing the trigonal planar structure typical of boron compounds. The energy level of the [NOB](center dot) center lies near the edge of the valence band of TiO2 and, as such, does not contribute to the visible light absorption. However, [NOB](center dot) can easily trap one electron generating the [NOB](center dot) diamagnetic center which introduces a gap state at about 0.4 eV above the top of the valence band. This latter species can contribute to the visible light activity.
Articolo in rivista - Articolo scientifico
TiO2, semiconducting oxides, doping, DFT calculations
English
2011
13
1
136
143
none
Czoska, A., Livraghi, S., Paganini, M., Giamello, E., DI VALENTIN, C., Pacchioni, G. (2011). The nitrogen-boron paramagnetic center in visible light sensitized N-B co-doped TiO2. Experimental and theoretical characterization. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 13(1), 136-143 [10.1039/c0cp00143k].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/20910
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