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Magnetokalorické materiály pro ekologicky šetrné chlazení
Burianová, Simona ; Kalbáčová Vejpravová, Jana (advisor) ; Prokleška, Jan (referee)
Nazev prace: Magnetokaloricke material> pro ekologicky setrne chlazeni Aulor: Simona Burianova Kaledra ( ustav ): Katcdra fy/iky kondenzovanych latek Vcdouci bakalafske prace: RNDr. Jaua PoltierovaVcjpravova, Pb.D E-mail vedoucibo: Abslrakt: V teto bakalafske praci jc porovnavan magnctokaloricky jev dvou ruznych materialu - nanocastic ferritu hofecnateho a slouceninach TbGei_xSix obohaccnych germaniein. Magncticke vlastnosti magnctickych nanocastic mu/ou byt konlrolovany ponioei jejich tvaru a velikosli, coz rmize byt vyhodne pro jejich pouziti pfi magnetickem chlazeni. Zmcna entropie MgFciO.! byla ziskana z mefeni magnetickych kfivek pfi ruznych teplotach. Slouceniny TbSio.iOeo,, a TbsSij byly pfipraveny metodou obloukovcho taveni a jejich krystalicka struklura byla potvrzena pomoci rentgenove dii'rakce. llodnoty MCE byly ziskany z mefeni zuvislosli tepelne kapacity na magnetickem poll a leplote. Diskulovany jsou take rozdily mezi hodnotami AS v magnetickych nanocasticich MgFe:O4 a v sloueenine TbSia.|Geo(,. Klicova slova: Magnclokaloricky jev. magneticke nanocastice, kovy vzacnyeh zemin Title: Magnetocaloric materials for environment friendly refrigeration Author: Simona Burianova Department: Department of Condensed Matter Physics Supervisor: RNDr. Jana PoltierovaVejpravova, Ph.D Supervisor's e-mail...
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Magnetism in transition metal oxides
Burianová, Simona ; Kalbáčová Vejpravová, Jana (advisor)
Title: Magnetism in transition metal oxides Author: Simona Burianová Department: Department of Condensed Matter Physics Supervisor: RNDr. Jana Poltierová Vejpravová, Ph.D. Supervisor's e-mail address: jana@mag.mff.cuni.cz Abstract: The CoFe2O4 nanocrystals are highly attractive due to their magnetic properties - large coercivity (up to 2 T at low temperatures) with moderate saturation magnetization (80 A.m2 .kg-1 ), remarkable chemical stability and mechanical hardness. Upon RE doping, a significant change of the properties is expected. This thesis is focused on investigation of Co1- xLaxFe2O4, x = 0.05 - 0.5 and CoLaxFe2-x O4 x = 0.05 - 0.2 nanoparticles prepared by sol-gel and microemulsion method, respectively, with varying particle size according to the final heat treatment. In the former case, the particles were embedded in amorphous SiO2 matrix, while in the latter case, the samples were matrix-free. The samples were characterized using X-ray diffraction and Mössbauer spectroscopy. Measurements of the temperature dependence of the ZFC-FC magnetization revealed that the blocking temperature is above the room temperature. The values of coercivity and saturation magnetization strongly depend on particles size determined by method of preparation. The higher coercivity values of about 2 T at 10 K show the...
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Magnetism in transition metal oxides
Burianová, Simona ; Kalbáčová Vejpravová, Jana (advisor)
Title: Magnetism in transition metal oxides Author: Simona Burianová Department: Department of Condensed Matter Physics Supervisor: RNDr. Jana Poltierová Vejpravová, Ph.D. Supervisor's e-mail address: jana@mag.mff.cuni.cz Abstract: The CoFe2O4 nanocrystals are highly attractive due to their magnetic properties - large coercivity (up to 2 T at low temperatures) with moderate saturation magnetization (80 A.m2 .kg-1 ), remarkable chemical stability and mechanical hardness. Upon RE doping, a significant change of the properties is expected. This thesis is focused on investigation of Co1- xLaxFe2O4, x = 0.05 - 0.5 and CoLaxFe2-x O4 x = 0.05 - 0.2 nanoparticles prepared by sol-gel and microemulsion method, respectively, with varying particle size according to the final heat treatment. In the former case, the particles were embedded in amorphous SiO2 matrix, while in the latter case, the samples were matrix-free. The samples were characterized using X-ray diffraction and Mössbauer spectroscopy. Measurements of the temperature dependence of the ZFC-FC magnetization revealed that the blocking temperature is above the room temperature. The values of coercivity and saturation magnetization strongly depend on particles size determined by method of preparation. The higher coercivity values of about 2 T at 10 K show the...
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Magnetokalorické materiály pro ekologicky šetrné chlazení
Burianová, Simona ; Kalbáčová Vejpravová, Jana (advisor) ; Prokleška, Jan (referee)
Nazev prace: Magnetokaloricke material> pro ekologicky setrne chlazeni Aulor: Simona Burianova Kaledra ( ustav ): Katcdra fy/iky kondenzovanych latek Vcdouci bakalafske prace: RNDr. Jaua PoltierovaVcjpravova, Pb.D E-mail vedoucibo: Abslrakt: V teto bakalafske praci jc porovnavan magnctokaloricky jev dvou ruznych materialu - nanocastic ferritu hofecnateho a slouceninach TbGei_xSix obohaccnych germaniein. Magncticke vlastnosti magnctickych nanocastic mu/ou byt konlrolovany ponioei jejich tvaru a velikosli, coz rmize byt vyhodne pro jejich pouziti pfi magnetickem chlazeni. Zmcna entropie MgFciO.! byla ziskana z mefeni magnetickych kfivek pfi ruznych teplotach. Slouceniny TbSio.iOeo,, a TbsSij byly pfipraveny metodou obloukovcho taveni a jejich krystalicka struklura byla potvrzena pomoci rentgenove dii'rakce. llodnoty MCE byly ziskany z mefeni zuvislosli tepelne kapacity na magnetickem poll a leplote. Diskulovany jsou take rozdily mezi hodnotami AS v magnetickych nanocasticich MgFe:O4 a v sloueenine TbSia.|Geo(,. Klicova slova: Magnclokaloricky jev. magneticke nanocastice, kovy vzacnyeh zemin Title: Magnetocaloric materials for environment friendly refrigeration Author: Simona Burianova Department: Department of Condensed Matter Physics Supervisor: RNDr. Jana PoltierovaVejpravova, Ph.D Supervisor's e-mail...
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Magnetism in transition metal oxides
Burianová, Simona ; Kalbáčová Vejpravová, Jana (advisor) ; Svoboda, Pavel (referee)
The CoFe2O4 nanocrystals are highly attractive due to their magnetic properties - large coercivity (up to 2 T at low temperatures) with moderate saturation magnetization (80 A.m2.kg-1), remarkable chemical stability and mechanical hardness. Upon RE doping, a significant change of the properties is expected. This thesis is focused on investigation of Co1-LaxFe2O4, x = 0.05 - 0.5 and CoLaxFe2-x O4 x = 0.05 - 0.2 nanoparticles prepared by sol-gel and microemulsion method, respectively, with varying particle size according to the final heat treatment. In the former case, the particles were embedded in amorphous SiO2 matrix, while in the latter case, the samples were matrix-free. The samples were characterized using X-ray diffraction and Mössbauer spectroscopy. Measurements of the temperature dependence of the ZFC-FC magnetization revealed that the blocking temperature is above the room temperature. The values of coercivity and saturation magnetization strongly depend on particles size determined by method of preparation. The higher coercivity values of about 2 T at 10 K show the samples prepared by the sol-gel method. The obtained results are discussed in the context of preparation method, particle size and level of La doping.
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Construction of financial plan for selected company
BURIÁNOVÁ, Simona
This bachelor thesis deals with creating long-term financial plan for the selected company for the period of five years. Financial plan sets out a financial strategy and tactics of the enterprise, formulates specific goals and predicts future financial results and determines the way that the company should follow to achieve it. The theoretical part deals with analysis and developing a long-term financial plan. In the practical part appear the financial analysis of the selected enterprise and a draft of a long-term financial plan for the year 2014-2019 that takes into account projected changes in the business and changes in the external business environment. The financial plan is set in accordance with the aim of the company. The conclusion evaluates the financial plan and the recommendations of possible changes in the company.
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Magnetic properties of doped CeO.sub.2./sub. nanoparticles and CeO.sub.2./sub.-Fe.sub.2./sub.O.sub.3./sub. mixed oxides
Mantlíková, Alice ; Bittová, Barbara ; Burianová, Simona ; Vejpravová, Jana ; Nižňanský, D. ; Holec, Petr
We have investigated magnetic properties of CeO2 nanoparticles and CeO2/SiO2 nanocomposites doped by various magnetic metal oxide ions (Fe, Gd, Sm, Nd). Samples were obtained by co-precipitation and sol-gel method. Particle size has been obtained as 5 - 25 nm for nanocomposite and 25 - 100 nm for nanoparticles increasing with the increase of the annealing temperature. Detailed measurements of magnetization demonstrate paramagnetic state in the majority of the doped samples with maximum magnetization decreasing with the decrease of effective magnetic moment of the dopant ions from Gd3+ to Nd3+. It has been also observed, that the high-coercivity ε-Fe2O3 forms in CeO2-Fe2O3/SiO2 nanocomposite for higher concentration of the Fe ions (Ce/Fe/Si ratio equal to 1/2/9) and for the highest annealing temperature.
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