1975
DOI: 10.1007/bf02660182
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Mechanism for the high voltage photovoltaic effect in ceramic ferroelectrics

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Cited by 127 publications
(74 citation statements)
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“…The photovoltaic properties of ferroelectric oxide ceramics were originally investigated over 30 years ago in numerous materials including LiNbO 3 , [4][5][6] BaTiO 3 ͑BTO͒, 4 and Pb͑Zr, Ti͒O 3 ͑PZT͒. 7 Much excitement was generated due to the anomalously large open circuit photovoltages, in some cases Ͼ10 4 V, that were produced when the crystals were subject to illumination. It was concluded that the photovoltaic effect was a consequence of the noncentrosymmetry of the unit cell, which gives rise to asymmetries in electron excitation, relaxation, and scattering processes.…”
mentioning
confidence: 99%
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“…The photovoltaic properties of ferroelectric oxide ceramics were originally investigated over 30 years ago in numerous materials including LiNbO 3 , [4][5][6] BaTiO 3 ͑BTO͒, 4 and Pb͑Zr, Ti͒O 3 ͑PZT͒. 7 Much excitement was generated due to the anomalously large open circuit photovoltages, in some cases Ͼ10 4 V, that were produced when the crystals were subject to illumination. It was concluded that the photovoltaic effect was a consequence of the noncentrosymmetry of the unit cell, which gives rise to asymmetries in electron excitation, relaxation, and scattering processes.…”
mentioning
confidence: 99%
“…It was concluded that the photovoltaic effect was a consequence of the noncentrosymmetry of the unit cell, which gives rise to asymmetries in electron excitation, relaxation, and scattering processes. [4][5][6][7] The photovoltaic efficiencies, however, were limited by small current densities ͑on the order of 10 −9 A / cm 2 ͒ and the large band gaps ͑typically ϳ3.5 eV͒ of these materials.…”
mentioning
confidence: 99%
“…21,28 In polycrystalline ferroelectric films/ceramics, photo current has been characterized to series connections of different grains/grain boundaries or domains/ domain walls. 29 The conducting domain walls become more semiconducting or insulating with increase in temperature which may reduce the charge generation near the interface. Figure 5 shows the temperature dependent behavior of dark and light current for two different stress voltages (42 and 98 V).…”
mentioning
confidence: 99%
“…In the open-circuit state, the crystal will yield a relatively high voltage. This voltage can be 2-4 orders of magnitude higher than the band gap (Eg) of the crystal [7]. In addition, one study found that the generated voltage is proportional to the thickness of the crystal in the direction of measurement, which is therefore considered a bulk effect.…”
Section: The Characteristics Of Ferroelectric Photovoltaicsmentioning
confidence: 99%
“…In traditional silicon thin-film photovoltaic devices, electron-hole pairs are separated mainly by interfacial effects [7], such as the p-n junction, heterojunction, and Schottky barrier [17,18]. Devices with junction field structure need not only significantly different materials to yield a sufficiently strong electric field, but also good contact between these materials, which is a key factor determining their performance.…”
Section: Advances and Open Issuesmentioning
confidence: 99%