Band-gap measurements of bulk and nanoscale hematite by soft x-ray spectroscopy

Gilbert, Benjamin; Frandsen, Cathrine; Maxey, Evan; Sherman, David M.

doi:10.1103/physrevb.79.035108

Cited by 200 publications

(175 citation statements)

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“…The intercept of the (αhν) 2 vs. hν straight line on the hν axis provides E g of the sample. 46,47 The band gap energy of α-Ga 2 O 3 and α-Fe 2 O 3 are 4.61 eV and 2.08 eV, respectively are well compared with reported values. 47 The calculated band gap energy of the Ga doped samples is in between the band gap of α-Ga 2 O 3 (4.61 eV) and α-Fe 2 O 3 (2.08 eV), in other words more close to the band gap value of α-Fe 2 O 3 .…”

Section: Resultssupporting

confidence: 66%

“…46,47 The band gap energy of α-Ga 2 O 3 and α-Fe 2 O 3 are 4.61 eV and 2.08 eV, respectively are well compared with reported values. 47 The calculated band gap energy of the Ga doped samples is in between the band gap of α-Ga 2 O 3 (4.61 eV) and α-Fe 2 O 3 (2.08 eV), in other words more close to the band gap value of α-Fe 2 O 3 . We noted that band gap energy (∼ 2.08 eV) of α-Fe 2 O 3 has been widened by Ga doping (∼ 2.48, 2.46, 2.41, 2.39 eV for MA20V8, MA60V8, MA100V8 and V8M200 samples, respectively).…”

Section: Resultssupporting

confidence: 66%

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Magnetic, dielectric and photo-absorption study of a ferromagnetic semiconductor α-Fe1.4Ga0.6O3

Naresh

Bhowmik

2011

AIP Advances

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We report the synthesis of α-Fe1.4Ga0.6O3 compound and present its structural phase stability and interesting magnetic, dielectric and photo-absorption properties. In our work Ga doped α-Fe2O3 samples are well stabilized in α phase (rhombohedral crystal structure with space group R3C). Properties of the present composition of Ga doped α-Fe2O3 system are remarkably advanced in comparison with recently most studied FeGaO3 composition. At room temperature the samples are typical soft ferromagnet, as well as direct band gap semiconductor. Dielectric study showed low dielectric loss in the samples with large enhancement of ac conductivity at higher frequencies. Optical absorption in the visible range has been enhanced by 4 to 5%. This composition has exhibited large scope of tailoring room temperature ferromagnetic moment and optical band gap by varying grain size and non-ambient (vacuum) heat treatment of the as prepared samples by mechanical alloying.

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Section: Resultssupporting

confidence: 66%

Section: Resultssupporting

confidence: 66%

Magnetic, dielectric and photo-absorption study of a ferromagnetic semiconductor α-Fe1.4Ga0.6O3

Naresh

Bhowmik

2011

AIP Advances

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“…6 Pure synthetic hematite is insulating with an experimental bandgap of ~2.2 eV. 7 With generally low conductivity limiting the usefulness of pure hematite, understanding and improving its transport properties has been of considerable interest. 8 Early experimental studies suggested that hematite exhibits an unusually low electron mobility.…”

Section: Introductionmentioning

confidence: 99%

Electrical transport properties of Ti-doped Fe2O3(0001) epitaxial films

et al. 2011

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The electrical transport properties for compositionally and structurally well-defined epitaxial α-(Ti x Fe 1-x ) 2 O 3 (0001) films have been investigated for x ≤ 0.09. All films were grown by oxygen plasma assisted molecular beam epitaxy using two different growth rates -0.05 -0.06 Å/s and 0.22 -0.24 Å/s. Despite no detectable difference in cation valence and structural properties, films grown at the lower rate were highly resistive whereas those grown at the higher rate were semiconducting (ρ = ~1 Ω·cm at 25 o C). Hall effect measurements reveal carrier concentrations between 10 19 and 10 20 cm -3 at room temperature and mobilities in the range of 0.1 to 0.6 cm 2 /V·s for films grown at the higher rate. The conduction mechanism transitions from small-polaron hopping at higher temperatures to variable range hopping at a transition temperature between 180 to 140 K. The absence of conductivity in the slow-grown films is attributed to donor electron compensation by cation vacancies, which may form to a greater extent at the lower rate because of higher oxygen fugacity at the growth front.2

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“…Through the RIXS investigations, the aforementioned blue-shift of the X-ray emission, which corresponds to the occurrence of the indirect bandgap, has been seen in diamond, Be chalcogenides, metal doped and pristine BiVO 4 , and Fe 2 O 3 . [37][38][39][40][41] To further demonstrate the correlation between size and band gap we refer to previous studies on the electronic properties of Fe 2 O 3 by Vayssieres et al 40,42 Previously, observed at the high emission energy region. The blue-shift of the emission spectra is a strong indication that Fe 2 O 3 is an indirect bandgap semiconductor.…”

Section: Studies Of Pristine 3d Tmos: Size Effects On the Tio 2 Fe mentioning

confidence: 99%

X-ray spectroscopies studies of the 3d transition metal oxides and applications of photocatalysis

Kapilashrami

Chuang

et al. 2017

MRS Communications

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Abstract:Recent advances in synchrotron based X-ray spectroscopy enable materials scientists to emanate finger prints on important materials properties e.g. electronic, optical, structural and magnetic properties, in real time and under nearly real-world conditions. This characterization in combination with optimized materials synthesis routes and tailored morphological properties could contribute greatly to the advances in solid-state electronics and renewable energy technologies. In connection to this, such perspective reflects the current materials research in the space of emerging energy technologies, namely photocatalysis, with a focus on transition metal oxides (TMOs), mainly on the Fe 2 O 3 and TiO 2 based materials.

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Band-gap measurements of bulk and nanoscale hematite by soft x-ray spectroscopy

Cited by 200 publications

References 50 publications

Magnetic, dielectric and photo-absorption study of a ferromagnetic semiconductor α-Fe1.4Ga0.6O3

Magnetic, dielectric and photo-absorption study of a ferromagnetic semiconductor α-Fe1.4Ga0.6O3

Electrical transport properties of Ti-doped Fe2O3(0001) epitaxial films

X-ray spectroscopies studies of the 3d transition metal oxides and applications of photocatalysis

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