Germanium nanostructures for efficient light harvesting devices
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1
Germanium nanostructures for efficient light harvesting devices
~EN PB NW
ISBN: 9783659557095 bzw. 3659557099, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Germanium nanostructures for efficient light harvesting devices: The growing World energy demand is setting new challenges toward the use of alternative and green resources as well as for the development of more efficient and low-power consuming devices. Thanks to their unique optical properties, group IV nanostructures (NS) show promising applications for cheap multi-junction solar cells and, in general, for efficient energy-tunable light harvesting devices. Among them, Ge reveals interesting optical properties due to its large absorption coefficient that make it intrinsically more suitable than Si for what concerns light harvesting applications. Moreover, the larger exciton Bohr radius of Ge (~24 nm) with respect to Si, gives the chance to easily tune the optical properties of Ge NSs by varying their size. Discerning the role of these parameters and controlling their effects in the light absorption process represents a key-factor toward the implementation of Ge NS in any type of light harvesting device. This work reports a detailed study on the synthesis, structural and optical properties of Ge nanostructures the investigation of photo-conduction properties in prototypal light harvesting devices. Englisch, Taschenbuch.
Germanium nanostructures for efficient light harvesting devices: The growing World energy demand is setting new challenges toward the use of alternative and green resources as well as for the development of more efficient and low-power consuming devices. Thanks to their unique optical properties, group IV nanostructures (NS) show promising applications for cheap multi-junction solar cells and, in general, for efficient energy-tunable light harvesting devices. Among them, Ge reveals interesting optical properties due to its large absorption coefficient that make it intrinsically more suitable than Si for what concerns light harvesting applications. Moreover, the larger exciton Bohr radius of Ge (~24 nm) with respect to Si, gives the chance to easily tune the optical properties of Ge NSs by varying their size. Discerning the role of these parameters and controlling their effects in the light absorption process represents a key-factor toward the implementation of Ge NS in any type of light harvesting device. This work reports a detailed study on the synthesis, structural and optical properties of Ge nanostructures the investigation of photo-conduction properties in prototypal light harvesting devices. Englisch, Taschenbuch.
2
Germanium nanostructures for efficient light harvesting devices
~EN NW AB
ISBN: 9783659557095 bzw. 3659557099, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Niederlande, Lieferzeit: 5 Tage, zzgl. Versandkosten.
The growing World energy demand is setting new challenges toward the use of alternative and green resources as well as for the development of more efficient and low-power consuming devices. Thanks to their unique optical properties, group IV nanostructures (NS) show promising applications for cheap multi-junction solar cells and, in general, for efficient energy-tunable light harvesting devices. Among them, Ge reveals interesting optical properties due to its large absorption coefficient that make it intrinsically more suitable than Si for what concerns light harvesting applications. Moreover, the larger exciton Bohr radius of Ge (~24 nm) with respect to Si, gives the chance to easily tune the optical properties of Ge NSs by varying their size. Discerning the role of these parameters and controlling their effects in the light absorption process represents a key-factor toward the implementation of Ge NS in any type of light harvesting device. This work reports a detailed study on the synthesis, structural and optical properties of Ge nanostructures the investigation of photo-conduction properties in prototypal light harvesting devices.
The growing World energy demand is setting new challenges toward the use of alternative and green resources as well as for the development of more efficient and low-power consuming devices. Thanks to their unique optical properties, group IV nanostructures (NS) show promising applications for cheap multi-junction solar cells and, in general, for efficient energy-tunable light harvesting devices. Among them, Ge reveals interesting optical properties due to its large absorption coefficient that make it intrinsically more suitable than Si for what concerns light harvesting applications. Moreover, the larger exciton Bohr radius of Ge (~24 nm) with respect to Si, gives the chance to easily tune the optical properties of Ge NSs by varying their size. Discerning the role of these parameters and controlling their effects in the light absorption process represents a key-factor toward the implementation of Ge NS in any type of light harvesting device. This work reports a detailed study on the synthesis, structural and optical properties of Ge nanostructures the investigation of photo-conduction properties in prototypal light harvesting devices.
3
Germanium nanostructures for efficient light harvesting devices (2014)
EN PB US
ISBN: 9783659557095 bzw. 3659557099, in Englisch, 172 Seiten, LAP LAMBERT Academic Publishing, Taschenbuch, gebraucht.
Neu ab: $83.77 (9 Angebote)
Gebraucht ab: $88.17 (2 Angebote)
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Von Händler/Antiquariat, Wordery USA.
The growing World energy demand is setting new challenges toward the use of alternative and green resources as well as for the development of more efficient and low-power consuming devices. Thanks to their unique optical properties, group IV nanostructures (NS) show promising applications for cheap multi-junction solar cells and, in general, for efficient energy-tunable light harvesting devices. Among them, Ge reveals interesting optical properties due to its large absorption coefficient that make it intrinsically more suitable than Si for what concerns light harvesting applications. Moreover, the larger exciton Bohr radius of Ge (~24 nm) with respect to Si, gives the chance to easily tune the optical properties of Ge NSs by varying their size. Discerning the role of these parameters and controlling their effects in the light absorption process represents a key-factor toward the implementation of Ge NS in any type of light harvesting device. This work reports a detailed study on the synthesis, structural and optical properties of Ge nanostructures the investigation of photo-conduction properties in prototypal light harvesting devices. Paperback, Label: LAP LAMBERT Academic Publishing, LAP LAMBERT Academic Publishing, Produktgruppe: Book, Publiziert: 2014-06-12, Freigegeben: 2014-06-12, Studio: LAP LAMBERT Academic Publishing.
Von Händler/Antiquariat, Wordery USA.
The growing World energy demand is setting new challenges toward the use of alternative and green resources as well as for the development of more efficient and low-power consuming devices. Thanks to their unique optical properties, group IV nanostructures (NS) show promising applications for cheap multi-junction solar cells and, in general, for efficient energy-tunable light harvesting devices. Among them, Ge reveals interesting optical properties due to its large absorption coefficient that make it intrinsically more suitable than Si for what concerns light harvesting applications. Moreover, the larger exciton Bohr radius of Ge (~24 nm) with respect to Si, gives the chance to easily tune the optical properties of Ge NSs by varying their size. Discerning the role of these parameters and controlling their effects in the light absorption process represents a key-factor toward the implementation of Ge NS in any type of light harvesting device. This work reports a detailed study on the synthesis, structural and optical properties of Ge nanostructures the investigation of photo-conduction properties in prototypal light harvesting devices. Paperback, Label: LAP LAMBERT Academic Publishing, LAP LAMBERT Academic Publishing, Produktgruppe: Book, Publiziert: 2014-06-12, Freigegeben: 2014-06-12, Studio: LAP LAMBERT Academic Publishing.
4
Germanium nanostructures for efficient light harvesting devices
~EN PB NW
ISBN: 3659557099 bzw. 9783659557095, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
6
Germanium nanostructures for efficient light harvesting devices (2014)
EN PB NW
ISBN: 9783659557095 bzw. 3659557099, in Englisch, 172 Seiten, LAP LAMBERT Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandfertig in 1 - 2 Werktagen.
Von Händler/Antiquariat, Aaron Grey Buchhändler.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
Von Händler/Antiquariat, Aaron Grey Buchhändler.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
7
Germanium nanostructures for efficient light h
~EN PB NW
ISBN: 9783659557095 bzw. 3659557099, vermutlich in Englisch, Taschenbuch, neu.
Lieferung aus: Deutschland, Next Day, Versandkostenfrei.
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
Die Beschreibung dieses Angebotes ist von geringer Qualität oder in einer Fremdsprache. Trotzdem anzeigen
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