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Author: Mark S. Gordon
Publisher: John Wiley & Sons
ISBN: 1119129265
Category : Science
Languages : en
Pages : 499
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Book Description
Fragmentation: Toward Accurate Calculations on Complex Molecular Systems introduces the reader to the broad array of fragmentation and embedding methods that are currently available or under development to facilitate accurate calculations on large, complex systems such as proteins, polymers, liquids and nanoparticles. These methods work by subdividing a system into subunits, called fragments or subsystems or domains. Calculations are performed on each fragment and then the results are combined to predict properties for the whole system. Topics covered include: Fragmentation methods Embedding methods Explicitly correlated local electron correlation methods Fragment molecular orbital method Methods for treating large molecules This book is aimed at academic researchers who are interested in computational chemistry, computational biology, computational materials science and related fields, as well as graduate students in these fields.
Author: Mark S. Gordon
Publisher: John Wiley & Sons
ISBN: 1119129265
Category : Science
Languages : en
Pages : 499
Get Book Here
Book Description
Fragmentation: Toward Accurate Calculations on Complex Molecular Systems introduces the reader to the broad array of fragmentation and embedding methods that are currently available or under development to facilitate accurate calculations on large, complex systems such as proteins, polymers, liquids and nanoparticles. These methods work by subdividing a system into subunits, called fragments or subsystems or domains. Calculations are performed on each fragment and then the results are combined to predict properties for the whole system. Topics covered include: Fragmentation methods Embedding methods Explicitly correlated local electron correlation methods Fragment molecular orbital method Methods for treating large molecules This book is aimed at academic researchers who are interested in computational chemistry, computational biology, computational materials science and related fields, as well as graduate students in these fields.
Author: Mark S. Gordon
Publisher: John Wiley & Sons
ISBN: 1119129257
Category : Science
Languages : en
Pages : 378
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Book Description
Fragmentation: Toward Accurate Calculations on Complex Molecular Systems introduces the reader to the broad array of fragmentation and embedding methods that are currently available or under development to facilitate accurate calculations on large, complex systems such as proteins, polymers, liquids and nanoparticles. These methods work by subdividing a system into subunits, called fragments or subsystems or domains. Calculations are performed on each fragment and then the results are combined to predict properties for the whole system. Topics covered include: Fragmentation methods Embedding methods Explicitly correlated local electron correlation methods Fragment molecular orbital method Methods for treating large molecules This book is aimed at academic researchers who are interested in computational chemistry, computational biology, computational materials science and related fields, as well as graduate students in these fields.
Author: Yuji Mochizuki
Publisher: Springer Nature
ISBN: 9811592357
Category : Science
Languages : en
Pages : 606
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Book Description
This book covers recent advances of the fragment molecular orbital (FMO) method, consisting of 5 parts and a total of 30 chapters written by FMO experts. The FMO method is a promising way to calculate large-scale molecular systems such as proteins in a quantum mechanical framework. The highly efficient parallelism deserves being considered the principal advantage of FMO calculations. Additionally, the FMO method can be employed as an analysis tool by using the inter-fragment (pairwise) interaction energies, among others, and this feature has been utilized well in biophysical and pharmaceutical chemistry. In recent years, the methodological developments of FMO have been remarkable, and both reliability and applicability have been enhanced, in particular, for non-bio problems. The current trend of the parallel computing facility is of the many-core type, and adaptation to modern computer environments has been explored as well. In this book, a historical review of FMO and comparison to other methods are provided in Part I (two chapters) and major FMO programs (GAMESS-US, ABINIT-MP, PAICS and OpenFMO) are described in Part II (four chapters). dedicated to pharmaceutical activities (twelve chapters). A variety of new applications with methodological breakthroughs are introduced in Part IV (six chapters). Finally, computer and information science-oriented topics including massively parallel computation and machine learning are addressed in Part V (six chapters). Many color figures and illustrations are included. Readers can refer to this book in its entirety as a practical textbook of the FMO method or read only the chapters of greatest interest to them.
Author: Dmitri Fedorov
Publisher: CRC Press
ISBN: 1420078496
Category : Science
Languages : en
Pages : 304
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Book Description
Answering the need to facilitate quantum-chemical calculations of systems with thousands of atoms, Kazuo Kitaura and his coworkers developed the Fragment Molecular Orbital (FMO) method in 1999. Today, the FMO method can be applied to the study of whole proteins and protein-ligand interactions, and is extremely effective in calculating the propertie
Author: János Ángyán
Publisher: Royal Society of Chemistry
ISBN: 1839160187
Category : Science
Languages : en
Pages : 390
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Book Description
London dispersion interactions are responsible for numerous phenomena in physics, chemistry and biology. Recent years have seen the development of new, physically well-founded models, and dispersion-corrected density functional theory (DFT) is now a hot topic of research. This book is an overview of current understanding of the physical origin and modelling of London dispersion forces manifested at an atomic level. It covers a wide range of system, from small intermolecular complexes, to organic molecules and crystalline solids, through to biological macromolecules and nanostructures. In presenting a broad overview of the of the physical foundations of dispersion forces, the book provides theoretical, physical and synthetic chemists, as well as solid-state physicists, with a systematic understanding of the origins and consequences of these ubiquitous interactions. The presentation is designed to be accessible to anyone with intermediate undergraduate mathematics, physics and chemistry.
Author: Anup Kumar (Chemist)
Publisher:
ISBN:
Category : Graph theory
Languages : en
Pages : 0
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Book Description
The quantum mechanical treatment of electrons and nuclei is considered to be a challenging exponential scaling problem at the forefront of computational science. Specifically, the accurate study of electronic structure in molecular systems is known tobe steeply algebraic in its computational scaling; additionally, the quantum mechanical treatment of nuclear degrees of freedom is thought to scale exponentially with size of system. Furthermore, quantum nuclear effects such as tunneling and zero-point effects play a critical role in several biological, atmospheric, and materials science problems. Hence, it has become increasingly clear that light nuclei such as protons may require quantum mechanical treatment, while also treating the electronic structure in a accurate manner. The goal of the work in this thesis is to introduce a family of accurate and efficient computational methods that reduce the computational cost of quantum treatment of nuclear degrees of freedom while incorporating extremely accurate electron correlation effects. This work takes a critical step towards addressing a grand-challenge for computational chemistry that has deep implications in the study of several materials and biological problems. Here, we present a multi-graph-theory-based adaptive molecular fragmentation method to effectively reduce the scaling of both the electronic and the quantum nuclear problems. A molecular system is divided into a set of graph-theoretic nodes that are connected to form a graph. The local interactions in the molecular system are included by considering all geometric objects within the graph as these represent many-body interactions between the various parts of the molecular system. for implementation on novel quantum hardware systems.
Author: Daniel Leo Sweeney, PH D
Publisher:
ISBN:
Category :
Languages : en
Pages : 176
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Book Description
When identifying compounds using mass spectrometry, you no longer have to use circular reasoning and work backwards from the answer. Using the new Rational Numbers Excel Add-In described in this book, the mathematical and graphical powers of Excel can now be applied to analyzing mass spectral data obtained using LCMS (liquid chromatography-mass spectrometry). This Excel Add-In is designed to help identify small molecules from less-than-perfect mass spectral data. All data must be accurate mass fragmentation data with a minimum accuracy of +/- 5 mDa, which has become common recently. This book is not concerned with the technical or experimental aspects of ion formation, mass selection or mass measurement; it deals primarily with the analysis of accurate mass fragmentation data of small singly-charged analytes. In this book, there are no fragmentation rules, chemical drawings of hypothetical fragment ions, or quantum mechanics. This book is also not an attempt to review the literature of computational approaches to mass spectral interpretation. This book is basically the author's perspective about a different approach that can help chemists, not just mass spectrometrists, to identify analytes quickly from LCMS data generated using electrospray ionization. When a limited set of data is basically converted into graphical representations with a few scores, it is important to understand the underlying operations and heuristic assumptions that are being made. First, there is a brief description of partitioning (Chapter 1). Three properties of atoms and combinations of atoms (mass, isotopic frequency, and valence) that are critical to mass spectrometry are described in Chapter 2. These three properties, base rates, and other considerations can then be used to find plausible subfragment masses while excluding many spurious masses (Chapters 3 and 4). In Chapter 5, combinations of plausible subfragment masses are systematically generated and checked to find mathematical partitions of the molecular weight. The best partitions are partitions of the molecular weight which also have combinations of subfragments that can explain many of the more intense fragment ions. These sets of partitions are sets of subfragment masses which are not aligned in space at this point. In Chapter 6, permutations of these combinations of subfragment masses are systematically generated and checked against truth tables to find spatial alignments of the subfragments in modular structures that are consistent with the mass spectral data. Up to this point, all operations in the Excel Add-In were done using masses (numbers); in Chapter 7, the subfragment masses are converted into sets of complementary subfragment formulas. Chapter 8 of this second edition is a new chapter that considers relationships between these subfragment formulas and corresponding substructures in molecules. Substructure searching, introduced in Pubchem Compound after the first edition of this book was published, will also be illustrated. Scoring is discussed in Chapter 9. Basic data considerations are described in Chapter 10. In Chapter 11, some examples of using the Excel Add-In are described in some detail.
Author: Saman Alavi
Publisher: John Wiley & Sons
ISBN: 3527341056
Category : Technology & Engineering
Languages : en
Pages : 342
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Book Description
Provides hands-on knowledge enabling students of and researchers in chemistry, biology, and engineering to perform molecular simulations This book introduces the fundamentals of molecular simulations for a broad, practice-oriented audience and presents a thorough overview of the underlying concepts. It covers classical mechanics for many-molecule systems as well as force-field models in classical molecular dynamics; introduces probability concepts and statistical mechanics; and analyzes numerous simulation methods, techniques, and applications. Molecular Simulations: Fundamentals and Practice starts by covering Newton's equations, which form the basis of classical mechanics, then continues on to force-field methods for modelling potential energy surfaces. It gives an account of probability concepts before subsequently introducing readers to statistical and quantum mechanics. In addition to Monte-Carlo methods, which are based on random sampling, the core of the book covers molecular dynamics simulations in detail and shows how to derive critical physical parameters. It finishes by presenting advanced techniques, and gives invaluable advice on how to set up simulations for a diverse range of applications. -Addresses the current need of students of and researchers in chemistry, biology, and engineering to understand and perform their own molecular simulations -Covers the nitty-gritty ? from Newton's equations and classical mechanics over force-field methods, potential energy surfaces, and probability concepts to statistical and quantum mechanics -Introduces physical, chemical, and mathematical background knowledge in direct relation with simulation practice -Highlights deterministic approaches and random sampling (eg: molecular dynamics versus Monte-Carlo methods) -Contains advanced techniques and practical advice for setting up different simulations to prepare readers entering this exciting field Molecular Simulations: Fundamentals and Practice is an excellent book benefitting chemist, biologists, engineers as well as materials scientists and those involved in biotechnology.
Author:
Publisher:
ISBN:
Category : Physics
Languages : en
Pages : 1206
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Book Description
Author:
Publisher:
ISBN:
Category : Mass spectrometry
Languages : en
Pages : 1624
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Book Description
