Solid State Nuclear Magnetic Resonance of Paramagnetic Metal-Organic and -Inorganic Systems PDF Download
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Author: Shashi Kumar Kumara Swamy
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The thesis aims at developing techniques in solid state nuclear magnetic resonance (ssNMR) of paramagnetic metal-organic and inorganic systems in combination with electron paramagnetic resonance (EPR) spectroscopy and quantum chemical methods such as density functional theory (DFT).Solid state NMR signals of paramagnetic systems suffer from severe loss of sensitivity and resolution due to large hyperfine interactions. Among all the interactions seen in ssNMR, the interaction between the unpaired electron(s) and the observed nucleus leading to hyperfine interaction in paramagnetic solids is large in magnitude. Large broadening due to fast relaxation in paramagnetic systems on the one hand limits the excitation of the nuclei using conventional probes thereby causing severe loss in sensitivity and resolution of ssNMR signals. On the other hand the large shifts due to Fermi-contact interaction mask the diamagnetic chemical shifts (which are rich source of chemical group information) and make signal assignment difficult. The conventional techniques developed for solid state NMR of diamagnetic systems are inefficient for paramagnetic systems. These factors have led ssNMR of paramagnetic systems to be an unexplored topic for decades.Recently Ishii and co-workers have circumvented some of these problems using very-fast magic angle spinning (VFMAS).1 Spinning the sample at MAS frequencies >30 kHz drastically enhances the sensitivity and resolution of ssNMR signals in paramagnetic complexes. We have used the VFMAS approach and have shown how to cope with moderate hyperfine interactions in ssNMR of organic (cyclam and acetylacetonate) and inorganic (alkaline-copper pyrophosphates) systems with transition metal ions such as CuII, NiII and VIV as paramagnetic center. On the one hand Fermi-contact interaction which is responsible for large shifts up to 100 ppm in 1H and 1000 ppm in 13C and 31P cause severe problems for signal assignment. But on the other hand it also leads to better spectral dispersion and hence improve the resolution of the ssNMR signals. We were able to exploit this idea and a well resolved 13C and even 1H solid state NMR spectrum in paramagnetic metal-organic systems was obtained using a simple Hahn-echo experiment. This is usually not possible, since 1H NMR in diamagnetic solids suffer from large broadening of 100 kHz due to 1H-1H homonuclear dipolar coupling. Furthermore fast relaxation in paramagnetic systems allows one to reduce the interscan delay and thereby repeat the experiments several times in a given time and improve the signal to noise ratio. This compensates for loss in sensitivity more often due to fast relaxation in paramagnetic systems.Fermi-contact shifts are characteristics of unpaired electron spin density in a molecule. Using quantum chemical methods such as DFT one can calculate the theoretical Fermi-contact shifts.2 We have compared the experimental 13C ssNMR shifts with shifts from DFT calculation in paramagnetic metal -cyclam and -acetylacetonate complexes and have assigned the 13C signals. For assignment of 1H, a 2D version of dipolar INEPT (insensitive nuclei enhancement by polarization transfer) was used. In some cases such as the Cu-cyclam complex, a very well resolved 1H ssNMR spectrum motivated us to try 1H-1H homonuclear correlation experiment. We obtained several important cross peaks with a relatively simple pulse sequence. We used the dipolar connectivity information from it to complete the 1H assignment.One of the important aims of the thesis was to find a way to measure the metal-carbon distances using solid state NMR relaxation rates. In paramagnetic metal-organic complexes the carbon-13 relaxation caused by the dipolar interaction with the unpaired electron depends on the distance of the carbon atoms to the central metal ion, therefore its rates in principle contain structural information...
Author: Shashi Kumar Kumara Swamy
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The thesis aims at developing techniques in solid state nuclear magnetic resonance (ssNMR) of paramagnetic metal-organic and inorganic systems in combination with electron paramagnetic resonance (EPR) spectroscopy and quantum chemical methods such as density functional theory (DFT).Solid state NMR signals of paramagnetic systems suffer from severe loss of sensitivity and resolution due to large hyperfine interactions. Among all the interactions seen in ssNMR, the interaction between the unpaired electron(s) and the observed nucleus leading to hyperfine interaction in paramagnetic solids is large in magnitude. Large broadening due to fast relaxation in paramagnetic systems on the one hand limits the excitation of the nuclei using conventional probes thereby causing severe loss in sensitivity and resolution of ssNMR signals. On the other hand the large shifts due to Fermi-contact interaction mask the diamagnetic chemical shifts (which are rich source of chemical group information) and make signal assignment difficult. The conventional techniques developed for solid state NMR of diamagnetic systems are inefficient for paramagnetic systems. These factors have led ssNMR of paramagnetic systems to be an unexplored topic for decades.Recently Ishii and co-workers have circumvented some of these problems using very-fast magic angle spinning (VFMAS).1 Spinning the sample at MAS frequencies >30 kHz drastically enhances the sensitivity and resolution of ssNMR signals in paramagnetic complexes. We have used the VFMAS approach and have shown how to cope with moderate hyperfine interactions in ssNMR of organic (cyclam and acetylacetonate) and inorganic (alkaline-copper pyrophosphates) systems with transition metal ions such as CuII, NiII and VIV as paramagnetic center. On the one hand Fermi-contact interaction which is responsible for large shifts up to 100 ppm in 1H and 1000 ppm in 13C and 31P cause severe problems for signal assignment. But on the other hand it also leads to better spectral dispersion and hence improve the resolution of the ssNMR signals. We were able to exploit this idea and a well resolved 13C and even 1H solid state NMR spectrum in paramagnetic metal-organic systems was obtained using a simple Hahn-echo experiment. This is usually not possible, since 1H NMR in diamagnetic solids suffer from large broadening of 100 kHz due to 1H-1H homonuclear dipolar coupling. Furthermore fast relaxation in paramagnetic systems allows one to reduce the interscan delay and thereby repeat the experiments several times in a given time and improve the signal to noise ratio. This compensates for loss in sensitivity more often due to fast relaxation in paramagnetic systems.Fermi-contact shifts are characteristics of unpaired electron spin density in a molecule. Using quantum chemical methods such as DFT one can calculate the theoretical Fermi-contact shifts.2 We have compared the experimental 13C ssNMR shifts with shifts from DFT calculation in paramagnetic metal -cyclam and -acetylacetonate complexes and have assigned the 13C signals. For assignment of 1H, a 2D version of dipolar INEPT (insensitive nuclei enhancement by polarization transfer) was used. In some cases such as the Cu-cyclam complex, a very well resolved 1H ssNMR spectrum motivated us to try 1H-1H homonuclear correlation experiment. We obtained several important cross peaks with a relatively simple pulse sequence. We used the dipolar connectivity information from it to complete the 1H assignment.One of the important aims of the thesis was to find a way to measure the metal-carbon distances using solid state NMR relaxation rates. In paramagnetic metal-organic complexes the carbon-13 relaxation caused by the dipolar interaction with the unpaired electron depends on the distance of the carbon atoms to the central metal ion, therefore its rates in principle contain structural information...
Author: G.N. la Mar
Publisher: Springer Science & Business Media
ISBN: 9401585733
Category : Science
Languages : en
Pages : 403
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Book Description
Since A. Kowalsky's first report of the spectrum of cytochrome c in 1965, interest in the detection, assignment and interpretation of paramagnetic molecules has surged, especially in the last decade. Two classes of systems have played a key role in the development of the field: heme proteins and iron-sulfur proteins. These two systems are unique in many respects, one of which is that they contain well-defined chromophores, each of which can be studied in detail outside the protein matrix. They are the most successfully studied macromolecules, and the first eight and last six of the seventeen contributions to this book deal with heme and/or iron-sulfur proteins. The middle three chapters survey the progress on, and significant promise of, more difficult systems which do not possess a chromophore, but which have nevertheless yielded remarkable insights into their structure.
Author: Thomas Craig Sandreczki
Publisher:
ISBN:
Category :
Languages : en
Pages : 556
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Book Description
Author: Klaus Müller
Publisher: John Wiley & Sons
ISBN: 352731816X
Category : Science
Languages : en
Pages : 562
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Book Description
Solid State NMR A thorough and comprehensive textbook covering the theoretical background, experimental approaches, and major applications of solid-state NMR spectroscopy Nuclear Magnetic Resonance (NMR) spectroscopy is a powerful non-destructive technique capable of providing information about the molecular structure and dynamics of molecules. Alongside solution-state NMR, a well-established technique to study chemical structures and investigate physico-chemical properties of molecules in solutions, solid-state NMR (SSNMR) offers many exciting possibilities for the analysis of solid and soft materials across scientific fields. SSNMR shows unique capabilities for a detailed investigation of structural and dynamic properties of materials over wide space and time ranges. For this reason, and thanks to significant advances in the past several years, the application of SSNMR to materials is rapidly increasing in disciplines such as chemistry, physics, and materials and life sciences. Solid State NMR: Principles, Methods, and Applications offers a systematic introduction to the theory, methodological concepts, and major experimental methods of SSMR spectroscopy. Exploring the unique potential of SSNMR for the structural and dynamic characterization of soft and either amorphous or crystalline solid materials, this comprehensive textbook provides foundational knowledge and recent developments of SSNMR, covering physical and theoretical background, experimental methods, and applications to pharmaceuticals, polymers, inorganic and hybrid materials, liquid crystals, and model membranes. Written by two expert authors to ensure a clear and consistent presentation of the subject, this textbook: Includes a brief introduction to the historical aspects and broad theoretical background of solid-state NMR spectroscopy Provides helpful illustrations to explain the various SSNMR concepts and methods Features accessible descriptive text with self-consistent use of quantum mechanics Covers the experimental aspects of SSNMR spectroscopy and in particular a description of many useful pulse sequences Contains references to relevant literature Solid State NMR: Principles, Methods, and Applications is the ideal textbook for university courses on SSNMR, advanced spectroscopies, and a valuable single-volume reference for spectroscopists, chemists, and researchers in the field of materials.
Author: John J. Fitzgerald
Publisher:
ISBN:
Category : Medical
Languages : en
Pages : 440
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Book Description
This book strikes a balance between state-of-the-art solid-state NMR techniques and the applications of these techniques to problems in materials science. The applications focus on modern inorganic materials such as metal oxides, catalysts, zeolites, glasses, ceramics, semiconductors, ion conductors, superconductors, and composites. The book features chapters on multiple-quantum MAS NMR, dynamic-angle spinning NMR for quadrupolar nuclides, and two-dimensional NMR methods. It includes an introductory chapter that provides an a thorough and integrated overview of the field, complete with numerous references.
Author: The Nuclear Magnetic Resonance Society of Japan
Publisher: Springer
ISBN: 9811059667
Category : Science
Languages : en
Pages : 634
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Book Description
This book describes the advanced developments in methodology and applications of NMR spectroscopy to life science and materials science. Experts who are leaders in the development of new methods and applications of life and material sciences have contributed an exciting range of topics that cover recent advances in structural determination of biological and material molecules, dynamic aspects of biological and material molecules, and development of novel NMR techniques, including resolution and sensitivity enhancement. First, this book particularly emphasizes the experimental details for new researchers to use NMR spectroscopy and pick up the potentials of NMR spectroscopy. Second, the book is designed for those who are involved in either developing the technique or expanding the NMR application fields by applying them to specific samples. Third, the Nuclear Magnetic Resonance Society of Japan has organized this book not only for NMR members of Japan but also for readers worldwide who are interested in using NMR spectroscopy extensively.
Author: Fahmina Zafar
Publisher: BoD – Books on Demand
ISBN: 9535126628
Category : Technology & Engineering
Languages : en
Pages : 168
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Book Description
The emerging and interesting field of MOF encouraged us to bring forth the book titled ''Metal Organic Frameworks''. The book is divided into three sections. Section A consists of introduction, Section B comprises the synthesis and characterization techniques, and Section C is dedicated to the applications of MOFs. The book would be useful for scientists and researchers interested in the field of MOFs.
Author: Helmut Sigel
Publisher: CRC Press
ISBN: 9780824775926
Category : Science
Languages : en
Pages : 328
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Book Description
Author: Ivano Bertini
Publisher: Elsevier
ISBN: 0444634487
Category : Science
Languages : en
Pages : 510
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Book Description
NMR of Paramagnetic Molecules: Applications to Metallobiomolecules and Models, Second Edition is a self-contained, comprehensive reference for chemists, physicists, and life scientists whose research involves analyzing paramagnetic compounds. Since the previous edition of this book was published, there have been many advancements in the field of paramagnetic NMR spectroscopy. This completely updated and expanded edition contains the latest fundamental theory and methods for mastery of this analytical technique. Users will learn how to interpret the NMR spectra of paramagnetic molecules, improve experimental techniques, and strengthen their understanding of the underlying theory and applications. - Reflects all advances in the field in a completely updated new edition - Presents new material on self-orientation residual dipolar couplings, solid state NMR, dynamic nuclear polarization, and paramagnetic restraints for structure calculations - Includes information relevant to paramagnetic molecules, metallobiomolecules, paramagnetic compounds, and paramagnetic NMR spectroscopy - Presents specific examples of paramagnetic inorganic species and experimental techniques for structure characterization
Author: Yong Yang
Publisher: Royal Society of Chemistry
ISBN: 1788018486
Category : Science
Languages : en
Pages : 573
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Book Description
The aim of this book is to introduce the use of NMR and MRI methods for investigating electrochemical storage materials and devices to help both NMR spectroscopists entering the field of batteries and battery specialists seeking diagnostic methods for material and device degradation.
