Structural Characterization of Complex Inorganic Materials Using Solid-state NMR Spectroscopy PDF Download
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Author: Hua Guo
Publisher:
ISBN: 9789179115562
Category :
Languages : en
Pages :
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Book Description
Author: Hua Guo
Publisher:
ISBN: 9789179115562
Category :
Languages : en
Pages :
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Book Description
Author: Duncan W. Bruce
Publisher: John Wiley & Sons
ISBN: 1118681924
Category : Technology & Engineering
Languages : en
Pages : 298
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Book Description
Inorganic materials are at the heart of many contemporary real-world applications, in electronic devices, drug delivery, bio-inspired materials and energy storage and transport. In order to underpin novel synthesis strategies both to facilitate these applications and to encourage new ones, a thorough review of current and emerging techniques for materials characterisation is needed. Examining important techniques that allow investigation of the structures of inorganic materials on the local atomic scale, Local Structural Characterisation discusses: Solid-State NMR Spectroscopy X-Ray Absorption and Emission Spectroscopy Neutrons and Neutron Spectroscopy EPR Spectroscopy of Inorganic Materials Analysis of Functional Materials by X-Ray Photoelectron Spectroscopy This addition to the Inorganic Materials Series provides a detailed and thorough review of these spectroscopic techniques and emphasises the interplay between chemical synthesis and physical characterisation.
Author: Jessi A. Baughman
Publisher:
ISBN:
Category : Chemistry
Languages : en
Pages : 173
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Book Description
Multiple systems were studied to advance the understanding of the chemical composition of the materials. These materials contained various structures or structures within different physical phases. Solid-state NMR techniques were used to probe effects of different chemical processes and environmental conditions on the chemical structures and phase composition of these materials. Much of the high thermal and chemical resistance of poly(vinylidene-cohexafluoropropylene) is gained from cross-linking. The insolubility of the cross-linked fluoroelastomer has prevented the characterization of the structure at the cross-link site by NMR. Samples from each of the four stages of the cross-linking of poly(vinylideneco-hexafluoropropylene) were analyzed with solid-state NMR to determine the chemical structure at the cross-linking site and the effects of cross-linking on the mobility of the elastomer chains. Spectral overlap from chemical shift dispersion hindered the use of simple 1D techniques to assign structural components to peaks in the NMR spectra. Relaxation studies that measured T1, T2, and T1[subscript p] relaxation times were used to assign new peaks in the NMR spectra to the fluoride salts that are produced during cross-linking. The NMR relaxation data also indicated no reduction in the mobility of the fluoroelastomer from cross-linking. The chemical structure of the cross-link site was partially characterized by 2D-NMR. However, the amorphous nature of the polymer inhibited a full characterization of this location with 2D-NMR techniques. The structures that were identified at the cross-link site supported proposed structures. Solutions of NaCl and dextrose used in the preservation of premixed drugs were analyzed to distinguish the solid and liquid phases over a temperature range of -60 to 20 °C. The large chemical shift dispersion in the NMR spectra made analysis of the frequency domain data difficult. The time domain data of the single pulse NMR experiments were analyzed using a logarithmic fitting technique and the inverse LaPlace transform. The logarithmic fit technique was able to distinguish a single solid and a single liquid phase for the NaCl and dextrose solutions. The inverse LaPlace transform indicated the presence of three phases near the center of the temperature range. The additional phase was assigned to a liquid phase of concentrated solution based on the T2 time of the phase found by the inverse LaPlace transform. The two methods gave similar results and were used to identify the percentage of each phase present throughout the temperature range. 33S solid-state NMR was used to characterize the discharge products of a lithium-sulfur battery. A single pulse experiment with a solid echo was used to help minimize the broadening effects of the quadrupolar interactions in 33S. Li2S was detected in the cathode of the fully discharged battery. Longer lithium sulfide polymer chains expected at higher discharge potentials were not detected due to large line widths in the NMR spectrum and small sample size that severely reduced the signal-to-noise. A reduced signal-to-noise spectrum of natural abundance, elemental sulfur suggested an isotropic chemical shift at -50 ppm.
Author: Klaus Müller
Publisher: John Wiley & Sons
ISBN: 3527690115
Category : Science
Languages : en
Pages : 560
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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: Francesco D'Acierno
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
An accurate structural characterization of polysaccharide-based systems is crucial in understanding the properties of the materials. Among all the characterization techniques, solid-state NMR spectroscopy proves to be fundamental for a clear picture of complex polysaccharide-based systems. An example of complexity in these systems is represented by disordered structures. Polysaccharides with large fractions of amorphous regions can be analyzed using 1H-13C cross-polarization (CP) magic-angle-spinning (MAS) to resolve their molecular sites. The same experiment can be applied to biochars obtained by thermal degradation of biopolymers to quantitatively characterize the forms of carbon present, in combination with direct polarization (DP) MAS to determine the size of the carbonaceous char clusters. Solid-state NMR is also effective in the structural characterization of porous materials. Some polysaccharides, such as chitin, self-assemble in mesoporous architectures directly in nature, while for others, such as cellulose, reduction to a nanocrystalline form is required to obtain these types of networks. Mesoporous polysaccharide-based materials can often be used as templates to create inorganic materials with complementary porosity, such as alumina aerogels, which can be exploited as catalyst supports, absorbents, or thermal insulators. Solid-state NMR enables the structural characterization of the biotemplated materials, when the corresponding isotope is NMR-sensitive. In this presentation, I will discuss our use of solid-state NMR techniques to probe the structures of new materials developed from biopolymers. This technique gives insight into the structure of the materials that is not available from other analytical methods.
Author: Christopher John Hudalla
Publisher:
ISBN:
Category :
Languages : en
Pages : 163
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Book Description
Author: Gerhard Erker
Publisher: Springer
ISBN: 364236697X
Category : Science
Languages : en
Pages : 354
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Book Description
Discovery of Frustrated Lewis Pairs: Intermolecular FLPs for Activation of Small Molecules, by Douglas W. Stephan Intramolecular Frustrated Lewis Pairs: Formation and Chemical Features, by Gerald Kehr, Sina Schwendemann, Gerhard Erker Frustrated Lewis Pair Mediated Hydrogenations, by Douglas W. Stephan, Gerhard Erker Amine-Borane Mediated Metal-Free Hydrogen Activation and Catalytic Hydrogenation, by Victor Sumerin, Konstantin Chernichenko, Felix Schulz, Markku Leskelä, Bernhard Rieger, Timo Repo Hydrogen Activation by Frustrated Lewis Pairs: Insights from Computational Studies, by Tibor András Rokob, Imre Pápai Quantum Chemistry of FLPs and Their Activation of Small Molecules: Methodological Aspects, by Birgitta Schirmer, Stefan Grimme Computational Design of Metal-Free Molecules for Activation of Small Molecules, Hydrogenation, and Hydroamination, by Zhi-Xiang Wang, Lili Zhao, Gang Lu, Haixia Li, Fang Huang Computational Studies of Lewis Acidity and Basicity in Frustrated Lewis Pairs, by Thomas M. Gilbert Solid-State NMR as a Spectroscopic Tool for Characterizing Phosphane - Borane Frustrated Lewis Pairs, by Thomas Wiegand, Hellmut Eckert, Stefan Grimme
Author: Haiming Liu
Publisher:
ISBN:
Category : Diffraction
Languages : en
Pages : 498
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Book Description
Author: Jun Xu
Publisher: Springer
ISBN: 9811369674
Category : Science
Languages : en
Pages : 260
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Book Description
Solid-State NMR Characterization of Heterogeneous Catalysts and Catalytic Reactions provides a comprehensive account of state-of-the-art solid-state NMR techniques and the application of these techniques in heterogeneous catalysts and related catalytic reactions. It includes an introduction to the basic theory of solid-state NMR and various frequently used techniques. Special emphasis is placed on characterizing the framework and pore structure, active site, guest-host interaction, and synthesis mechanisms of heterogeneous catalysts using multinuclear one- and two-dimensional solid-sate NMR spectroscopy. Additionally, various in-situ solid-state NMR techniques and their applications in investigation of the mechanism of industrially important catalytic reactions are also discussed. Both the fundamentals and the latest research results are covered, making the book suitable as a reference guide for both experienced researchers in and newcomers to this field. Feng Deng is a Professor at Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences.
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.
