Impact of doping on Cobalt Ferrite crystals for device applications
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1
Impact of doping on Cobalt Ferrite crystals for device applications
~EN PB NWISBN: 9783659720307 bzw. 3659720305, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Impact of doping on Cobalt Ferrite crystals for device applications: Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively. Englisch, Taschenbuch.
Impact of doping on Cobalt Ferrite crystals for device applications: Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively. Englisch, Taschenbuch.
2
Impact of doping on Cobalt Ferrite crystals for device applications
DE NWISBN: 9783659720307 bzw. 3659720305, in Deutsch, neu.
Lieferung aus: Deutschland, zzgl. Versandkosten.
Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively.
Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively.
3
Impact of doping on Cobalt Ferrite crystals for device applications
~EN NW ABISBN: 9783659720307 bzw. 3659720305, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Schweiz, Lieferzeit: 2 Tage, zzgl. Versandkosten.
Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively.
Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively.
4
Impact of doping on Cobalt Ferrite crystals for device applications (2015)
EN PB NWISBN: 9783659720307 bzw. 3659720305, in Englisch, 132 Seiten, LAP Lambert Academic Publishing, Taschenbuch, neu.
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Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively. Paperback, Label: LAP Lambert Academic Publishing, LAP Lambert Academic Publishing, Produktgruppe: Book, Publiziert: 2015-06-23, Studio: LAP Lambert Academic Publishing.
Von Händler/Antiquariat, PBShop UK.
Cobalt ferrite (CoFe2O4) is a promising material due to its exceptional ferrelectric, optical, electronic and magnetic properties that are most important for device applications. The oxides with spinel structure are interesting materials responsible for useful device applications due to their promising chemical and physical properties achievable in accommodation of foreign citations. Partial substitution of iron with transition metals might play an important role to improve its different properties useful in various applications. Degree of crystallinity, particle size, electrical conductivity, optical absorption and low temperature magnetization of cobalt ferrite were measured before and after doping with transition metals Zr, Zn and Cd. The crystallinity improved for doping effect. The charge capacity and optical absorptivity also increases for doping effects. The first principle ab- initio study of on the doping effect of such transition metal elements in cobalt ferrite has been performed in this work. The bulk modulus and ductility of CoFe2O4 are 233 GPa and 0.21 where as that of CoFe1.8Cd0.2O4 are reported to 251 GPa and 0.14 respectively. Paperback, Label: LAP Lambert Academic Publishing, LAP Lambert Academic Publishing, Produktgruppe: Book, Publiziert: 2015-06-23, Studio: LAP Lambert Academic Publishing.
5
Impact of doping on Cobalt Ferrite crystals for device applications
~EN PB NWISBN: 3659720305 bzw. 9783659720307, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
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7
Impact of doping on Cobalt Ferrite crystals for device applications
EN NWISBN: 9783659720307 bzw. 3659720305, in Englisch, OmniScriptum GmbH & Co. KG, OmniScriptum GmbH & Co. KG, neu.
Lieferung aus: Vereinigte Staaten von Amerika, zzgl. Versandkosten, Free Shipping on eligible orders over $25, in-stock.
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
8
Impact of doping on Cobalt Ferrite crystals f . 9783659720307 | dpd Versand
DE NWISBN: 9783659720307 bzw. 3659720305, in Deutsch, neu.
Lieferung aus: Deutschland, Lieferart: Flat, Lieferung: Weltweit, Artikelstandort: 37574 Deutschland.
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