Polynuclear Coordination Assemblies : Synthesis, Crystal Structures And Magnetic Behavior

Sengupta, Oindrila

11 1900

Construction of polynuclear metal assemblies from discrete 0D clusters to extend 3D networks, comprised of metal ions and bridging organic/inorganic ligands has attracted immense attention, owing to their intriguing network topologies and interesting properties. Proper ligand design and the appropriate choice of the metal center are of vital importance to the design of such polynuclear assemblies. One of the various attributes of polynuclear metal assemblies is magnetism. Magnetic materials can be constructed by incorporating magnetic moment carriers such as paramagnetic metals(V, Cr, Mn, Fe, Co, Ni, Cu) in presence of bridging ligands. Though, one-atom oxo/hydroxo and two-atom cyanide bridges were of popular choices due to their short distance for transmitting strong magnetic coupling between the paramagnetic metal centers, it has been shown that, three-atom bridging ligands like carboxylate and azide (N3 ) are well-fitted moieties for this purpose since they offer a variety of magnetic interactions depending on their versatile bridging modes. It has been well known that incorporation of anionic bridging ligand in presence of azide anion is a challenging task due to the competition between the 2nd anionic ligand with azide in self-assembly process. Incorporating both azide and carboxylate functionalities, a series of polymeric complexes has been synthesized and conversion of 0D discrete clusters to extended networks with the retention of basic core by fine tuning the ligands has been achieved. Single-crystal to single-crystal transformation has received considerable attention in crystal engineering since it is difficult for crystals to retain single crystallinity after removal of the guest at high temperature. Interestingly single-crystal to single-crystal transformation was observed at high temperature for Co(II) formate-formamide complex and change in dimensionality from 3D to 0D was observed at high temperature for Cr(III) formate-formamide complex. Multiferroic materials are those where both ferroelectricity and ferromagnetism coexist in the same phase. In general the transition metal d-electrons which are essential for magnetism reduce the tendency for off-center ferroelectric distortion. First tetrazole based miltiferroic coordination polymer of Co(II) metal ion in presence of azide has been successfully synthesized whereas its analogous Mn(II) complex showed different structural topology with interesting magnetic behavior. It has been also established in the present study, the important role played by hydrazine ligand to prevent oxidation of paramagnetic Co(II) to diamagnetic Co(III) system with the formation of a metal-inorganic assembly of Co(II) which exhibited spin-canted behavior.

Coordination Polymers

Coordination Polymers - Synthesis

Magnetic Behavior

Polynuclear Metal Assemblies

Polynuclear Coordination Assemblies

Formate-bridged Polynuclear Assemblies

Crystal Structures

Azide

Theoretical Chemistry

Estudo de propriedades locais em impureza intersticiais em hospedeiros metálicos. / Study of Local Properties in Interstitial Impurities in Metalic Hosts.

Mello, Luiz Adolfo de

02 August 1996

Neste trabalho realizamos um estudo do comportamento do momento magnético e do deslocamento isomérico de uma impureza intersticial de Fe em hospedeiros metálicos de valências 4 (Ti, Zr), 3 (Sc, Y). Investigamos também impurezas intersticiais e substitucionais de Mo e Fe em hospedeiros divalentes. Para realizar este estudo fizemos cálculos de estrutura eletrônica utilizando o RS-LMTO-ASA (\"Real Space - Linear Muffin-Tin Orbital - Atomic Spherical Approximation\"), um método de primeiros princípios dentro da aproximação do funcional densidade local, implementado no espaço real. Calculamos o momento magnético no sítio da impureza nos sistemas acima e constatamos que a impureza intersticial de Fe é não magnética nos hospedeiros de valências 4 e 3, e que tanto as impurezas intersticiais como as substitucionais podem apresentar momento magnético nos hospedeiros divalentes. Mostramos que para os sistemas divalentes o momento magnético depende fortemente da relaxação. Os nossos resultados são explicados através de um modelo simples, baseado no modelo de Wolff. Investigamos também o comportamento do deslocamento isomérico no sítio da impureza de Fe nesses vários sistemas. Constatamos que os nossos resultados concordam razoavelmente bem com os dados experimentais e explicam o comportamento das tendências observadas. / In the present work, we have studied the magnetic moments and the behavior of the isomer shift at the interstitial Fe impurity site in Ti, Sc, Zr and Y hosts. We have also investigated interstitial and substitutional Fe and Mo impurities in Ca, Sr and Yb hosts. To perform the calculations, we have used the RS-LMTO-ASA scheme, a first principles method, within the local spin density approximation, implemented in real space. We calculated the magnetic moments at the impurity site in the above systems and all the substitucional impurities are found to be magnetic. The results show that interstitial Fe is non-magnetic in the tri- and tetravalent hosts, but interstitial Fe and Mo impurities could develop local magnetic moment in divalent hosts. \'We show that the magnetic moment at the impurity site in these divalent hosts is strongly dependent on lattice relaxation. The results can be explained using simple arguments based on Wolff model. We have investigated in a systematic way the behavior of the isomer shift of Fe impurities in these systems. We observed that our results are in generally good agreement with experiment and lead to better understanding of the observed trends in terms of the volume occupied by the Fe in each host.

Cálculo de Estrutura Eletrônica

Comportamento Magnético

Deslocamento Isomérico.

Electronic Structure Calculations

Estudo de Propriedades Locais

Impurezas Intersticiais

Interstitial Impurities

Isomer Shift.

Magnetic Behavior

Study of Local Properties

Spindynamik in Tunnelelementen mit senkrechter magnetischer Anisotropie / Spin dynamics in tunnel junctions with perpendicular magnetic anisotropy

Zbarsky, Vladyslav

22 January 2015

No description available.

530

Physik (PPN621336750)

magnetic tunnel junction

perpendicular magnetic anisotropy

spin dynimics of CoFeB/MgO

STT

Spin-Transfer Torque

MTJ

spin transport

demagnetization

minority spins

magnetic behavior of CoFeB

Estudo de propriedades locais em impureza intersticiais em hospedeiros metálicos. / Study of Local Properties in Interstitial Impurities in Metalic Hosts.

Luiz Adolfo de Mello

02 August 1996

Neste trabalho realizamos um estudo do comportamento do momento magnético e do deslocamento isomérico de uma impureza intersticial de Fe em hospedeiros metálicos de valências 4 (Ti, Zr), 3 (Sc, Y). Investigamos também impurezas intersticiais e substitucionais de Mo e Fe em hospedeiros divalentes. Para realizar este estudo fizemos cálculos de estrutura eletrônica utilizando o RS-LMTO-ASA (\"Real Space - Linear Muffin-Tin Orbital - Atomic Spherical Approximation\"), um método de primeiros princípios dentro da aproximação do funcional densidade local, implementado no espaço real. Calculamos o momento magnético no sítio da impureza nos sistemas acima e constatamos que a impureza intersticial de Fe é não magnética nos hospedeiros de valências 4 e 3, e que tanto as impurezas intersticiais como as substitucionais podem apresentar momento magnético nos hospedeiros divalentes. Mostramos que para os sistemas divalentes o momento magnético depende fortemente da relaxação. Os nossos resultados são explicados através de um modelo simples, baseado no modelo de Wolff. Investigamos também o comportamento do deslocamento isomérico no sítio da impureza de Fe nesses vários sistemas. Constatamos que os nossos resultados concordam razoavelmente bem com os dados experimentais e explicam o comportamento das tendências observadas. / In the present work, we have studied the magnetic moments and the behavior of the isomer shift at the interstitial Fe impurity site in Ti, Sc, Zr and Y hosts. We have also investigated interstitial and substitutional Fe and Mo impurities in Ca, Sr and Yb hosts. To perform the calculations, we have used the RS-LMTO-ASA scheme, a first principles method, within the local spin density approximation, implemented in real space. We calculated the magnetic moments at the impurity site in the above systems and all the substitucional impurities are found to be magnetic. The results show that interstitial Fe is non-magnetic in the tri- and tetravalent hosts, but interstitial Fe and Mo impurities could develop local magnetic moment in divalent hosts. \'We show that the magnetic moment at the impurity site in these divalent hosts is strongly dependent on lattice relaxation. The results can be explained using simple arguments based on Wolff model. We have investigated in a systematic way the behavior of the isomer shift of Fe impurities in these systems. We observed that our results are in generally good agreement with experiment and lead to better understanding of the observed trends in terms of the volume occupied by the Fe in each host.

Cálculo de Estrutura Eletrônica

Comportamento Magnético

Deslocamento Isomérico.

Estudo de Propriedades Locais

Impurezas Intersticiais

Electronic Structure Calculations

Interstitial Impurities

Isomer Shift.

Magnetic Behavior

Study of Local Properties

Copper-Azides : Syntheses, Structures and Magnetic Behavior

Mistry, Subhradeep

January 2017

Extensive research work was carried out in past few decades to synthesize new compounds with extended structures by employing various organic linkers and metals. A large number of potential applications of these coordination polymer materials were explored as it contains both inorganic metals as well as organic molecules. The large open pores of coordination polymer compounds were explored for applications such as absorption, separation, and catalysis etc. whereas the framework part provides a model system to study physical properties such as magnetism, luminescence, ferroelectricity etc. We were mainly interested in designing new magnetic materials with extended structures which is the primary objective of this thesis. To study this a systematic investigations are carried out with azide bridged copper(II) compounds. Azide is a versatile ligand which possesses a large number of bridging modes. On the other hand, the coordination flexibility offered by the copper centres makes it to possess diverse coordination number (4-6) as well as geometry. Copper-azide compounds were synthesized at room temperature and the structure was determined using single-crystal X-ray diffraction studies. Structure and magnetic behavior of the copper-azide compounds were studied and discussed here in this thesis. Further, we have studied selective absorption and separation of aliphatic nitrile compounds by employing a two-dimensional interdigitated coordination polymer. In addition, transformation studies of a Ni5 cluster to a Ni9 cluster have also been carried out. Chapter 1 of this thesis presents a brief overview of azide based compounds and summarizes important copper-azide compounds and their magnetic behavior. In chapter 2, synthesis, structure, and magnetic behavior of two-dimensional copper-azide based compounds have been presented. Field dependent magnetic studies were also carried out for all the compounds. Chapter 3 presents the synthesis, structure, and magnetic behavior of copper-azide compounds where 1,2-diaminopropane was employed as a site blocking agent. In chapter 4, the synthesis, structure, and magnetic behavior of two isostructural three-dimensional copper-azides are presented. In chapter 5, synthesis, structure, and magnetic behavior of the azide based one and two-dimensional compounds are presented. Chapter 6 presents synthesis and structure of a two-dimensional inter-digitated coordination polymer compounds. The selective absorption and separation of aliphatic nitriles were also presented in this chapter. In chapter 7, synthesis, structure, and magnetic behavior of Ni clusters are presented. A transformation study to convert a Ni5 cluster to Ni9 cluster was also carried out and presented in this chapter.

Copper-Azides - Magnetic Behavior

Azide Bridged Structures

Non-Transition Metals

Ferromagnets

Anti-ferromagnets

Copper Azide Clusters

Copper Azides

Cu7 Clusters

Azide Networks

Copper Azides

Coordination Polymer

Solid State and Structural Chemistry