1. Nuclear Magnetic Resonance (NMR)
|1."Spin Dynamics: Basics of Nuclear Magnetic Resonance" by Malcolm H Levitt|
“Spin Dynamics: Basics of Nuclear Magnetic Resonance” Book Review: This book is designed for undergraduates and postgraduate students who are studying NMR spectroscopy for the first time. It also serves as a helpful resource for scientists in fields such as chemistry, physics, materials science, life sciences, medicine, and earth and environmental sciences. Additionally, experienced spectroscopists and NMR researchers can benefit from its content. The book presents the quantum theory of nuclear magnets in a clear and concise manner, emphasizing a strong physical framework. It offers numerous worked examples and exercises to enhance comprehension. The topics covered range from quarks and nucleons to a detailed explanation of essential NMR experiments.
|2."Nuclear Magnetic Resonance: Basic Principles" by T I Atta-Ur-Rahman|
“Nuclear Magnetic Resonance (Oxford Chemistry Primers)” Book Review: This is a comprehensive book that delves into the fundamental principles of nuclear magnetic resonance (NMR). The book covers a range of topics, including the physics behind NMR, spin dynamics, relaxation processes, chemical shift, coupling constants, and spectral analysis. It also explores various NMR techniques and applications in different fields such as chemistry, biology, and medicine. The author provides clear explanations and includes illustrative examples to enhance understanding. This book serves as an excellent resource for students, researchers, and professionals seeking a solid foundation in NMR.
|3."Nuclear Magnetic Resonance (Oxford Chemistry Primers)" by Peter Hore|
|4."Atlas Of Magnetic Resonance Imaging" by Singh Hariqbal|
“Atlas Of Magnetic Resonance Imaging” Book Review: This book offers an extensive collection of MRI images, encompassing both normal anatomical structures and a diverse range of pathological conditions. With a specific emphasis on self-assessment, the study aims to engage readers and stimulate their interest. It serves as a valuable resource for residents, radiologists, and practitioners, assisting them in diagnosing various cases encountered in their routine practice. Designed for medical college and institutional libraries, as well as departmental and stand-alone MR unit libraries, the book also delves into the physical principles underlying magnetic resonance imaging.
|5."Noninvasive Imaging of Cardiac Metabolism" by Ernst E van der Wall|
|6."Nuclear Magnetic Resonance Spectroscopy in Molecular Biology" by A Pullman|
|7."Magnetism and Superconductivity in Iron-based Superconductors as Probed by Nuclear Magnetic Resonance" by Franziska Hammerath|
|8."Nuclear Magnetic Resonance (Molecular Methods of Plant Analysis)" by Hans-Ferdinand Linskens and John F Jackson|
“Nuclear Magnetic Resonance (Molecular Methods of Plant Analysis)” Book Review: This book provides a comprehensive focus on nuclear magnetic resonance (NMR) spectroscopy and its application in plant studies. It serves as a valuable resource for experts, offering insights into the utilization of NMR techniques for investigating plant cells. The methods are presented in a detailed manner, making them accessible even to beginners in the laboratory setting. The book covers a range of topics, including general metabolism in higher plants and fungi, intracellular pH, energy status, DNA structure analysis, multiple quantum two-dimensional NMR spectroscopy, chloroplast orientation, rubber analysis, and the determination of pollen viability using NMR.
|9."Practical Nuclear Magnetic Resonance Relaxation for Chemists" by Vladimir I Bakhmutov|
“Practical Nuclear Magnetic Resonance Relaxation for Chemists” Book Review: This book is written specifically for chemists who may not have a strong background in physics or nuclear magnetic resonance (NMR). It offers a detailed explanation of how NMR relaxation can be used to analyze the structure of chemical compounds. The book emphasizes the detection of weak interactions between molecules and the measurement of distances between atoms and bonds. With practical guidance, it helps chemists apply NMR relaxation techniques in their own laboratory work. This book serves as an educational tool, providing chemists with the knowledge and skills needed to effectively use NMR relaxation methods.
|10."Principles of Nuclear Magnetic Resonance Microscopy" by The late Paul T Callaghan|
“Principles of Nuclear Magnetic Resonance Microscopy” Book Review: This book explains the basic principles and key concepts of two types of NMR Microscopy in a simple and straightforward manner. It includes numerous examples to illustrate their practical applications. The study focuses on the methods that are essential for fundamental research in biology and physics. It also explores the wide range of applications in various industries, such as petrochemicals, polymers, biotechnology, food processing, and natural product processing. By exploring these topics, the book provides valuable insights into the uses and significance of NMR Microscopy in both scientific research and industrial sectors.
2. Pulse and FT NMR Theory and Techniques
|1."High Resolution NMR" by Edwin D Becker|
“High Resolution NMR” Book Review: This book provides a comprehensive overview of the principles and theory of nuclear magnetic resonance (NMR) with a specific focus on its applications in the chemical sciences. Positioned at an intermediate level, the book combines verbal descriptions of NMR phenomena with mathematical explanations to enhance understanding. It covers NMR at various levels of study and explores its wide range of applications, including the determination of structures for small organic molecules and macromolecules such as proteins. The book delves into NMR in liquids, emphasizing four key approaches: steady state energy levels, the rotating vector picture, the density matrix, and the product operator formalism. Prior knowledge of quantum mechanics is recommended, and the book begins with foundational physics principles. Additionally, the historical development of the field is briefly discussed, and problem sets are included to aid comprehension.
|2."Interpretation of Carbon-13 NMR Spectra" by F W Wehril and T Wirth|
“Interpretation of Carbon-13 NMR Spectra” Book Review: This book focuses on the conceptual and experimental basis of the subject, with an emphasis on experimental methods and the interpretation of spectral details. It highlights the significance of 13C NMR as a powerful technique for organic chemists, enabling the identification of individual resonance lines and their correlation with specific carbons in a molecule. The book addresses its application in tackling structural, stereochemical, and conformational problems, as well as its utility in characterizing synthetic and biological macromolecules. Additionally, it discusses the use of 13C NMR in elucidating reaction mechanisms and studying chemical and conformational equilibria.
|3."Physical Methods in Inorganic Chemistry" by R S Drago|
|4."Modern Techniques in High Resolution FT- NMR" by Chandra kumar subramanian|
“Modern Techniques in High Resolution FT- NMR” Book Review: This book provides a straightforward introduction to spin dynamics, focusing on its relevance in modern NMR experiments. The book presents subjective experiments that help readers grasp the concepts effectively. It introduces important classes of pulse sequences and explores their applications. Additionally, the book covers the use of surface coil imaging in various practical scenarios.
|5."Theory and Application of Pulse Voltammetric Techniques for Electroanalysis in Steady Flow Systems" by Songying Mo|
“Theory and Application of Pulse Voltammetric Techniques for Electroanalysis in Steady Flow Systems” Book Review: This is a comprehensive book that explores the theory and practical applications of pulse voltammetric techniques in steady flow systems for electroanalysis. The book covers various topics, including the fundamentals of pulse voltammetry, different types of pulse techniques, electrode reactions, instrumentation, and data analysis methods. It also discusses the application of pulse voltammetry in various fields, such as environmental monitoring, biomedical analysis, and industrial processes. This book serves as a valuable resource for researchers, scientists, and students interested in electroanalysis and pulse voltammetry techniques.
|6."Pulse and Fourier Transform NMR: Introduction to Theory and Methods" by Thomas C Farrar and Edwin D Becker|
“Pulse and Fourier Transform NMR: Introduction to Theory and Methods” Book Review: This book is a comprehensive guide that introduces the principles and techniques of pulse and Fourier transform nuclear magnetic resonance (NMR). The book covers various topics, including the basic principles of NMR spectroscopy, pulse sequences, Fourier transformation, relaxation and dynamics, multi-dimensional NMR, and advanced techniques. It provides clear explanations, accompanied by numerous examples and illustrations, making it accessible for beginners in the field. This book is a valuable resource for students, researchers, and professionals interested in NMR spectroscopy and its applications.
|7."Progress in Ultrafast Intense Laser Science XII (Springer Series in Chemical Physics)" by Kaoru Yamanouchi and Luis Roso|
“Progress in Ultrafast Intense Laser Science XII (Springer Series in Chemical Physics)” Book Review: This book is an insightful collection of research and advancements in the field of ultrafast intense laser science. The book features various chapters that cover a wide range of topics, including laser-matter interactions, attosecond physics, high-harmonic generation, laser-induced ionization and fragmentation, and applications in fields like chemistry and biology. It provides a comprehensive overview of the latest developments and techniques in ultrafast laser science, making it an essential resource for researchers, physicists, and chemists interested in this rapidly evolving field.
|8."Radar Data Processing With Applications" by He You and Xiu Jianjuan|
“Radar Data Processing With Applications” Book Review: This introductory book covers the theory, development, and latest research in the field. It includes research results on data processing techniques for modern-style radars, as well as tracking performance evaluation theory. The book also presents performance evaluation and registration algorithms for radar networks. Data processing methods for passive radar, pulse Doppler radar, and phased array radar are discussed, along with various applications. Suitable for information engineers and radar engineers, the book also covers topics such as electronic countermeasures, infrared techniques, sonar techniques, and military command.
|9."Pulse Code Modulation Techniques (Electrical Engineering)" by William M Waggener|
“Pulse Code Modulation Techniques (Electrical Engineering)” Book Review: Each chapter of this book introduces various topics that provide intuitive or ad hoc design methods. These methods effectively connect theoretical results with practical design problems. The book focuses on PCM (Pulse Code Modulation) systems, covering the entire system from the channel coder to the decoder. It delves into the modulation and demodulation functions involved in PCM systems, as well as the communication channels used.
|10."Introduction to PCM Telemetering Systems" by S Horan|