TY  - THES
A1  - Sobal, Neli
T1  - Kolloidale Nanosysteme aus magnetischen und metallischen Materialien : Synthese und Charakterisierung
N2  - Ein Spezialgebiet der modernen Mikroelektronik ist die Miniaturisierung und Entwicklung von neuen nanostrukturierten und Komposit-Materialen aus 3d-Metallen. Durch geeignete Zusammensetzungen können diese sowohl mit einer hohen Sättigungsmagnetisierung und Koerzitivfeldstärke als mit besserer Oxidationsbeständigkeit im Vergleich zu den reinen Elementen erzielt werden.  In der vorliegenden Arbeit werden neue Methoden für die Herstellung von bimetallischen kolloidalen Nanopartikeln vor allem mit einer Kern-Hülle-Struktur (Kern@Hülle) präsentiert. Bei der überwiegenden Zahl der vorgestellten Reaktionen handelt es sich um die thermische Zersetzung von metallorganischen Verbindungen wie Kobaltcarbonyl, Palladium- und Platinacetylacetonate oder die chemische Reduktion von Metallsalze mit langkettigem Alkohol in organischem Lösungsmittel. Daneben sind auch Kombinationen aus diesen beiden Verfahren beschrieben. Es wurden Kolloide aus einem reinen Edelmetall (Pt, Pd, Ag) in einem organischen Lösungsmittel synthetisiert und daraus neue, bisher in dieser Form nicht bekannte Ag@Co-, Pt@Co-, Pd@Co- und Pt@Pd@Co-Nanopartikel gewonnen.  Der Kobaltgehalt der Ag@Co-, Teilchen konnte im Bereich von 5 bis 73 At. % beliebig eingestellt werden. Der mittlere Durchmesser der Ag@Co-Partikel wurde von 5 nm bis 15 nm variiert. Bei der Herstellung von Pt@Co-Teilchen wurde eine unterschiedlich dicke Kobalt-Hülle von ca. 1,0 bis 2,5 nm erzielt. Im Fall des Palladiums wurden sowohl monodispere als auch polydisperse Pd-Nanopartikel mit einer maximal 1,7-2,0nm dicken Kobalthülle synthetisiert.  Ein großer Teil dieser Arbeit befasst sich mit den magnetischen Eigenschaften der kolloidalen Teilchen, wobei die SQUID-Magnetometrie und Röntgenzirkulardichroismus (XMCD) dafür eingesetzt wurden. Weil magnetische Messungen alleine nur indirekte Schlüsse über die untersuchten Systeme erlauben, wurde dabei besonderer Wert auf die möglichst genaue strukturelle Charakterisierung der Proben mittels moderner Untersuchungsmethoden gelegt. Röntgendiffraktometrie (XRD), Röntgenabsorptionsfeinstruktur- (EXAFS) und UV-Vis-Spektroskopie sowie Transmissionselektronenmikroskopie (TEM) in Kombination mit Elektronen Energieverlustspektroskopie (EELS) und energiedispersive Röntgenfluoreszensanalyse (EDX) wurden verwendet.
N2  - Magnetic colloidal particles are attractive because of their possible application to ultra-high-density magnetic data storage media, sensors, electronic devices and medical diagnostics. The properties of small particles depend on their composition, shape, and method of preparation. The combination of 3d-metals (Fe, Co, Ni) with noble metals improves the stability of the colloids and leads to new properties of the magnetic systems, often distinct from those of the corresponding monometallic particles. Core-shell particles, where dia- or paramagnetic noble metal-cores are surrounded by a ferromagnetic Co-shell, are an interesting system to study surface and interfacial magnetism such as an induced polarization or a giant magnetoresistance effect.   In this work, new synthetic routes for the preparation of monometallic (Pt, Pd, Ag) and bimetallic magnetic nanocrystals (Ag@Co, Pt@Co, Pd@Co) with core-shell structure are presented. Stable colloids with a narrow particle size distribution were obtained in organic solvents using methods of wet chemistry. The method of preparation of Ag@Co is based on the thermal decomposition of dicobalt octycarbonyl in combination with a transmetalation reaction with water free AgClO4. The cobalt amount in the Ag@Co system could be tuned from 5 to 73 at. %. The average diameter of the particles was varied from 5 to 15 nm.   The reduction of platinum and palladium salts in organic solution using long chained alcohol as the reductant leads to stable metal nanostructures. Monodisperse Pd and Pt particles with average sizes of 1.7 to 7.0 nm were synthesized via thermal decomposition of metal-surfactant complexes too. Alkylamines and alkylphosphines were used in this procedure. The thickness of the Co-shell was controlled by a simple high-temperature thermolysis of dicobalt octacarbonyl at the presence of Pd and Pt seeds and was tunable from 0.5 to 2.5 nm.   The crystalline structure of the samples was characterized by transmission electron microscopy (TEM), energy dispersive x-ray spectroscopy (EDX), UV-VIS and electron-energy loss spectroscopy (EELS). SQUID magnetometry, x-ray magnetic circular dichroism (XMCD) and extended x-ray absorption fine structure (EXAFS) measurements gave information about the magnetic properties of the bimetallic systems and revealed their dependency on the particle size and the chemical composition. A high spin to orbital moments ratio µL/µS of 0.26±0.06 for Ag@Co and 0.22±0.05 for Pt@Co nanocrystals was observed at XMCD measurements due to the lowered dimensionality the investigated systems.
KW  - Kolloid
KW  - AgCo
KW  - PtCo
KW  - PdCo
KW  - TEM
KW  - EDX
KW  - EELS
KW  - XMCD
KW  - Kern-Hülle
KW  - Herstellung
KW  - Nanopartikel
KW  - Kobaltcarbonyl
KW  - Acetylacetonat
KW  - Colloid
KW  - AgCo
KW  - PtCo
KW  - PdCo
KW  - TEM
KW  - EDX
KW  - EELS
KW  - XMCD
KW  - core-shell
KW  - synthesis
KW  - nanoparticles
KW  - organic solvent
KW  - decomposition
KW  - reduction
KW  - cobalt dicarbonyl
KW  - a
Y1  - 2003
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-0001071
ER  - 
TY  - JOUR
A1  - von Czapiewski, Marc
A1  - Kreye, Oliver
A1  - Mutlu, Hatice
A1  - Meier, Michael A. R.
T1  - Cross-metathesis versus palladium-catalyzed C-H activation acetoxy ester functionalization of unsaturated fatty acid methyl esters
JF  - European journal of lipid science and technology
N2  - Two synthetic approaches to functionalize plant oil derived platform chemicals were investigated. For this purpose, methyl 10-undecenoate, which can be obtained by pyrolysis of castor oil, was used in olefin cross-metathesis under neat conditions forming an unsaturated a,?-acetoxy ester. A catalyst screening with 11 different ruthenium-based metathesis catalysts was performed, revealing that well-suited catalysts allow for full conversion and very good cross-metathesis selectivity at a loading of only 0.5?mol%. An alternative possibility to the aforementioned synthetic method is a palladium-catalyzed reaction of methyl 10-undecenoate with acetic acid in the presence of dimethyl sulfoxide. Here, the formation of linear and branched unsaturated acetoxy esters as well as a ketone was observed. The conversion as well as the selectivity of this procedure was studied under different reaction conditions and compared to the cross-metathesis results. Based on the successful functionalization of methyl 10-undecenoate, methyl oleate was investigated in this palladium-catalyzed C?H activation reaction. Due to the lower reactivity of the internal double bond the desired acetoxy ester was only obtained in moderate conversion in this case. In summary, this study clearly shows that palladium-catalyzed functionalization of unsaturated fatty compounds via C?H activation is an attractive alternative to the well-established olefin cross-metathesis procedure.
KW  - a
KW  - -Acetoxy esters
KW  - C?H oxidation
KW  - Cross-metathesis
KW  - Fatty acids
KW  - Pd catalysis
Y1  - 2013
U6  - https://doi.org/10.1002/ejlt.201200196
SN  - 1438-7697
VL  - 115
IS  - 1
SP  - 76
EP  - 85
PB  - Wiley-Blackwell
CY  - Hoboken
ER  -