Photogenerated Charge Separation between Polar Crystal Facets Under a Spontaneous Electric Field

Abstract: As we know, photocatalytic reactions occur at the surfaces of catalysts, thus the photocatalytic performance of a catalyst is strongly related to its exposed crystal faces, which determines the surface structure at the atomic scale. [11,12] Recently, the separation of photoinduced charges on the exposed faces of semiconductor nanocrystals has been studied using surface photovoltage techniques [13] and synchronous illumination X-ray photoelectron spectroscopy. [14] However, these studies only focus on one cryst… Show more

“…According to refs and for the nonlayered compounds, the [001] in hexagonal and tetragonal crystals and the [111] in cubic crystals are usually the polar direction. In these polar directions, the directional electron migration driven by E s /V s should be exhibited.…”

“…The internal electric field from the spontaneous polarization in the [0001] polar direction is named spontaneous electric field (E s ). , The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects. A general model of photogenerated charge separation between polar crystal facets and a novel piezoelectric mechanism which can change the current understanding of piezoelectric phenomena are presented. As a result, an unified polar structure theory has been preliminarily established.…”

“…Subsequently, there appeared a flurry of reports on polar crystal facets discovered as active crystalline surfaces for photocatalysis. − In addition, the enhanced rectification, photovoltaic, and piezoelectric generation performances are observed in the [0001] polar orientated wurtzite ZnO thin films , and nanorods . The internal electric field from the spontaneous polarization in the [0001] polar direction is named spontaneous electric field (E s ). , The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects. A general model of photogenerated charge separation between polar crystal facets and a novel piezoelectric mechanism which can change the current understanding of piezoelectric phenomena are presented.…”

“…To clarify the mechanism of ZnO {001} crystal plane enhancing photocatalysis, we first proposed the concept of internal electric field between the Zn-terminated (0001) and O-terminated (000) polar surfaces, and presented a model of charge separation promoted by the interior electric field . Subsequently, there appeared a flurry of reports on polar crystal facets discovered as active crystalline surfaces for photocatalysis. − In addition, the enhanced rectification, photovoltaic, and piezoelectric generation performances are observed in the [0001] polar orientated wurtzite ZnO thin films , and nanorods . The internal electric field from the spontaneous polarization in the [0001] polar direction is named spontaneous electric field (E s ). , The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects.…”

“…30,32 The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects. A general model of photogenerated charge separation between polar crystal facets 30 and a novel piezoelectric mechanism which can change the current understanding of piezoelectric phenomena 32 are presented. As a result, an unified polar structure theory has been preliminarily established.…”

Polarity-Driven Directional [0001] Electron Transfer on Nonpolar ZnO (101̅0) Crystal Plane

“…According to refs and for the nonlayered compounds, the [001] in hexagonal and tetragonal crystals and the [111] in cubic crystals are usually the polar direction. In these polar directions, the directional electron migration driven by E s /V s should be exhibited.…”

“…The internal electric field from the spontaneous polarization in the [0001] polar direction is named spontaneous electric field (E s ). , The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects. A general model of photogenerated charge separation between polar crystal facets and a novel piezoelectric mechanism which can change the current understanding of piezoelectric phenomena are presented. As a result, an unified polar structure theory has been preliminarily established.…”

“…Subsequently, there appeared a flurry of reports on polar crystal facets discovered as active crystalline surfaces for photocatalysis. − In addition, the enhanced rectification, photovoltaic, and piezoelectric generation performances are observed in the [0001] polar orientated wurtzite ZnO thin films , and nanorods . The internal electric field from the spontaneous polarization in the [0001] polar direction is named spontaneous electric field (E s ). , The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects. A general model of photogenerated charge separation between polar crystal facets and a novel piezoelectric mechanism which can change the current understanding of piezoelectric phenomena are presented.…”

“…To clarify the mechanism of ZnO {001} crystal plane enhancing photocatalysis, we first proposed the concept of internal electric field between the Zn-terminated (0001) and O-terminated (000) polar surfaces, and presented a model of charge separation promoted by the interior electric field . Subsequently, there appeared a flurry of reports on polar crystal facets discovered as active crystalline surfaces for photocatalysis. − In addition, the enhanced rectification, photovoltaic, and piezoelectric generation performances are observed in the [0001] polar orientated wurtzite ZnO thin films , and nanorods . The internal electric field from the spontaneous polarization in the [0001] polar direction is named spontaneous electric field (E s ). , The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects.…”

“…30,32 The existence of E s in polar structure has been found to play a crucial role in the photocatalysis and photovoltaic, rectification, and piezoelectric effects. A general model of photogenerated charge separation between polar crystal facets 30 and a novel piezoelectric mechanism which can change the current understanding of piezoelectric phenomena 32 are presented. As a result, an unified polar structure theory has been preliminarily established.…”

Polarity-Driven Directional [0001] Electron Transfer on Nonpolar ZnO (101̅0) Crystal Plane

A (101¯0$10\bar{1}0$)‐Orientated ZnO Single Crystal Chem‐Voltaic Device Beyond Conventional Fuel Cells

Enhanced visible-light photocatalytic activity of hydrogenated Fe3O4 nanooctahedrons with {111} polar facets in degradation of Basic Fuchsin and the photocatalytic mechanism