2012
DOI: 10.1088/1757-899x/38/1/012007
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Low-energy charge transfer excitations in NiO

Abstract: Abstract. Comparative analysis of photoluminescence (PL) and photoluminescence excitation (PLE) spectra of NiO poly-and nanocrystals in the spectral range 2-5.5 eV reveals two PLE bands peaked near 3.7 and 4.6 eV with a dramatic rise in the low-temperature PLE spectral weight of the 3.7 eV PLE band in the nanocrystalline NiO as compared with its polycrystalline counterpart. In frames of a cluster model approach we assign the 3.7 eV PLE band to the low-energy bulk-forbidden p-d (t1g(π)-eg) charge transfer (CT) … Show more

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Cited by 9 publications
(5 citation statements)
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“…The fast component with characteristic time constants of ∼2.1 ns and 2.3 nm for MAS-N70 and pristine N70, respectively, matches with previously reported data for NiO. 26 On the other hand, the slow decay component of 21.5 ns observed for the MAS-N70 sample (Fig. 5d) is very close to literature data, 26 while the 25 ns decay constant obtained for the pristine samples is found to be slightly higher than that reported in the literature.…”
Section: Spectroscopic Determinationssupporting
confidence: 90%
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“…The fast component with characteristic time constants of ∼2.1 ns and 2.3 nm for MAS-N70 and pristine N70, respectively, matches with previously reported data for NiO. 26 On the other hand, the slow decay component of 21.5 ns observed for the MAS-N70 sample (Fig. 5d) is very close to literature data, 26 while the 25 ns decay constant obtained for the pristine samples is found to be slightly higher than that reported in the literature.…”
Section: Spectroscopic Determinationssupporting
confidence: 90%
“…26 On the other hand, the slow decay component of 21.5 ns observed for the MAS-N70 sample (Fig. 5d) is very close to literature data, 26 while the 25 ns decay constant obtained for the pristine samples is found to be slightly higher than that reported in the literature. This suggests the presence of more trapping states in the pristine sample in comparison with MAS-N70.…”
Section: Spectroscopic Determinationssupporting
confidence: 87%
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“…It is now believed that the most intensive low-energy electron-hole excitations in insulating 3d oxides correspond to the charge transfer (CT) transitions [7,8,[31][32][33][34][35][36][37][38][39][40][41][42][43][44][45][46][47][48][49]. Namely, the CT transitions are considered as a likely source of the optical and magneto-optical response of the 3d metal-based oxide compounds, in particular, ferrites, in a wide spectral range of 1-10 eV, primarily of the fundamental absorption edge.…”
Section: Cluster Model Approachmentioning
confidence: 99%
“…These have a long and distinguished history of applications in electron, optical and magnetooptical spectroscopy, magnetism and magnetic resonance. The author and his colleagues has successfully demonstrated the great potential of the cluster model for description of the p-d and d-d charge transfer transitions and their contributions to optical and magnetooptical responses of various 3d oxides, such as ferrites [31][32][33][34][35][36][37][38][39][40], cuprates [41][42][43][44][45], manganites [40,46,47] and nickelates [48,49]. Five Me 3d and eighteen oxygen O 2p atomic orbitals in the octahedral MeO 6 complex with the point symmetry group O h form hybrid Me 3d-O 2p bonding and antibonding e g and t 2g molecular orbitals, and purely oxygen nonbonding a 1g (σ), t 1g (π), t 1u (σ), t 1u (π) and t 2u (π) orbitals (see, e.g., [5,8,29,46]).…”
Section: Cluster Model Approachmentioning
confidence: 99%