Nanoscale Crystal Growth (Paperback) - 6 Angebote vergleichen
Preise | 2013 | 2014 | 2015 | 2021 |
---|---|---|---|---|
Schnitt | € 48,13 | € 45,94 | € 59,12 | € 85,39 |
Nachfrage |
1
Nanoscale Crystal Growth
DE PB NW
ISBN: 9783639075199 bzw. 3639075196, in Deutsch, VDM Verlag, Taschenbuch, neu.
Von Händler/Antiquariat, BuySomeBooks [52360437], Las Vegas, NV, U.S.A.
Paperback. 100 pages. Dimensions: 8.7in. x 6.0in. x 0.3in.Surfaces and interfaces have special significance to nanotechnology because the surfacevolume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces; explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name Preferential Interface Nucleation (PIN) is suggested as a replacement for VLS-like names. This item ships from multiple locations. Your book may arrive from Roseburg,OR, La Vergne,TN.
Paperback. 100 pages. Dimensions: 8.7in. x 6.0in. x 0.3in.Surfaces and interfaces have special significance to nanotechnology because the surfacevolume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces; explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name Preferential Interface Nucleation (PIN) is suggested as a replacement for VLS-like names. This item ships from multiple locations. Your book may arrive from Roseburg,OR, La Vergne,TN.
2
Symbolbild
Nanoscale Crystal Growth (Paperback) (2008)
~EN PB NW
ISBN: 9783639075199 bzw. 3639075196, vermutlich in Englisch, VDM Verlag Dr. Mueller e.K., Germany, Taschenbuch, neu.
Von Händler/Antiquariat, The Book Depository EURO [60485773], London, United Kingdom.
Language: English. Brand new Book. Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces; explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name `Preferential Interface Nucleation´ (PIN) is suggested as a replacement for VLS-like names. Books.
Language: English. Brand new Book. Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces; explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name `Preferential Interface Nucleation´ (PIN) is suggested as a replacement for VLS-like names. Books.
3
Nanoscale Crystal Growth (2008)
DE PB NW RP
ISBN: 9783639075199 bzw. 3639075196, in Deutsch, VDM Verlag Okt 2008, Taschenbuch, neu, Nachdruck.
Von Händler/Antiquariat, AHA-BUCH GmbH [51283250], Einbeck, Germany.
This item is printed on demand - Print on Demand Titel. Neuware - Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces; explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name Preferential Interface Nucleation (PIN) is suggested as a replacement for VLS-like names. 100 pp. Englisch.
This item is printed on demand - Print on Demand Titel. Neuware - Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces; explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name Preferential Interface Nucleation (PIN) is suggested as a replacement for VLS-like names. 100 pp. Englisch.
4
Nanoscale Crystal Growth
DE PB NW
ISBN: 9783639075199 bzw. 3639075196, in Deutsch, Vdm Verlag Dr. Müller, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
buecher.de GmbH & Co. KG, [1].
Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name 'Preferential Interface Nucleation' (PIN) is suggested as a replacement for VLS-like names.2008. 100 S.Versandfertig in 3-5 Tagen, Softcover.
buecher.de GmbH & Co. KG, [1].
Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name 'Preferential Interface Nucleation' (PIN) is suggested as a replacement for VLS-like names.2008. 100 S.Versandfertig in 3-5 Tagen, Softcover.
5
Nanoscale Crystal Growth
DE PB NW
ISBN: 9783639075199 bzw. 3639075196, in Deutsch, Vdm Verlag Dr. Müller, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
buecher.de GmbH & Co. KG, [1].
Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name 'Preferential Interface Nucleation' (PIN) is suggested as a replacement for VLS-like names.2008. 100 S.Versandfertig in 3-5 Tagen, Softcover.
buecher.de GmbH & Co. KG, [1].
Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name 'Preferential Interface Nucleation' (PIN) is suggested as a replacement for VLS-like names.2008. 100 S.Versandfertig in 3-5 Tagen, Softcover.
6
Nanoscale Crystal Growth (2008)
DE NW RP
ISBN: 9783639075199 bzw. 3639075196, in Deutsch, Bertrams Print On Demand, neu, Nachdruck.
Lieferung aus: Deutschland, Versandkostenfrei.
AHA-BUCH GmbH, [4009276].
- Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name 'Preferential Interface Nucleation' (PIN) is suggested as a replacement for VLS-like names. - Besorgungstitel - vorauss. Lieferzeit 3-5 Tage.. Pappeinband.
AHA-BUCH GmbH, [4009276].
- Surfaces and interfaces have special significance to nanotechnology because the surface/volume ratio of nano- is larger than for bulk-materials. Investigating the interfaces therefore leads to greater understanding. Growth of some nanocrystals has been explained in the context of crystalline interfaces. This has helped improve production of devices that are both scientifically and commercially beneficial. This dissertation expands on the atomistic processes occurring at interfaces explaining growth and control of different nanocrystals. A review of crystal growth terminology and theory is given, a new technology to produce compound semiconductor quantum dots is described, and growth of one-dimensional nanostructures is explained. A review the fundamental processes of the currently accepted vapor-liquid-solid (VLS) growth mechanism is expanded. Although the focus is on nanowires, most of the discussion may be applicable to whiskers, nanotubes, and other unidirectional growth. Due to the fundamental similarities in mechanisms with different names, the name 'Preferential Interface Nucleation' (PIN) is suggested as a replacement for VLS-like names. - Besorgungstitel - vorauss. Lieferzeit 3-5 Tage.. Pappeinband.
Lade…