Advances in Quantum Chemistry: A tribute to the life and work of Per-Olov Lowdin: Advances in Quantum Chemistry, cartea 41
John R. Sabinen Limba Engleză Hardback – 12 ian 2003
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Specificații
ISBN-13: 9780120348411
ISBN-10: 0120348411
Pagini: 286
Dimensiuni: 152 x 229 x 22 mm
Greutate: 0.59 kg
Editura: ELSEVIER SCIENCE
Seria Advances in Quantum Chemistry
ISBN-10: 0120348411
Pagini: 286
Dimensiuni: 152 x 229 x 22 mm
Greutate: 0.59 kg
Editura: ELSEVIER SCIENCE
Seria Advances in Quantum Chemistry
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Public țintă
Researchers in quantum chemistry, applied mathematics, biology and physics; universities and industrial research and development groups working on biological molecules and new materials, such as semiconductor chips, polymers, and alloys.Recenzii
"Quantum chemistry has emerged as a subject in its own right. The appearance of a review publication which surveys recent achievements in the field is therefore very appropriate and, when it has the quality of this volume, is most welcome."
—PROCEEDINGS OF THE PHYSICAL SOCIETY
"The juxtaposition of the oldest of quantum chemical studies, atomic structure, and one of the newest, quantum biology, highlights the importance of quantum theory in modern chemistry. Thus, having first opened the book in search of a particular article, the reader is stimulated to delve into fields of which he has but a superficial knowledge. In this way the book can be instrumental in broadening the interests and background of those who turn to it."
—THE ROYAL INSTITUTE OF CHEMISTRY
—PROCEEDINGS OF THE PHYSICAL SOCIETY
"The juxtaposition of the oldest of quantum chemical studies, atomic structure, and one of the newest, quantum biology, highlights the importance of quantum theory in modern chemistry. Thus, having first opened the book in search of a particular article, the reader is stimulated to delve into fields of which he has but a superficial knowledge. In this way the book can be instrumental in broadening the interests and background of those who turn to it."
—THE ROYAL INSTITUTE OF CHEMISTRY
Cuprins
Theoretical studies of the interaction of radiation with biomolecules (J.R. Sabin).
Free-radical-induced DNA damage as approached by quantum-mechanical and Monte Carlo calculations: an overview from the standpoint of an experimentalist
(C. von Sonntag).
Energy deposition models at the molecular level in biological systems (A. Munoz).
DFT Treatment of Radiation Produced Radicals in DNA Model Systems (Xifeng Li, M.D. Sevilla).
Computational Studies of Radicals Relevant to Nucleic Acid Damage (F. Turecek).
Radical cations of the nucleic bases and radiation damage to DNA: ab initio study (E. Cauët, J. Liévin).
Charge exchange and fragmentation in slow collisions of He2+ with water molecules (N. Stolterfoht et al.).
How Very Low-energy (0.1-2 eV) Electrons Cause DNA Strand Breaks (J. Simons).
Electron-driven molecular processes induced in biological systems by electromagnetic and other ionizing sources (I. Baccarelli et al.).
Electron Attachment to DNA Base Complexes (A.F. Jalbout, L. Adamowicz).
Accelerating multiple scattering of electrons emitted by ion impact: Contribution to molecular fragmentation and radiation damages (B. Sulik, K. Tokési).
Total Electron Stopping Powers and CSDA- Ranges from 20 eV to 10 MeV electron energies for components of DNA and RNA (A. Akar et al.).
The Influence of Stopping Powers upon Dosimetry for Radiation Therapy with energetic Ions (H. Paul et al.)
Free-radical-induced DNA damage as approached by quantum-mechanical and Monte Carlo calculations: an overview from the standpoint of an experimentalist
(C. von Sonntag).
Energy deposition models at the molecular level in biological systems (A. Munoz).
DFT Treatment of Radiation Produced Radicals in DNA Model Systems (Xifeng Li, M.D. Sevilla).
Computational Studies of Radicals Relevant to Nucleic Acid Damage (F. Turecek).
Radical cations of the nucleic bases and radiation damage to DNA: ab initio study (E. Cauët, J. Liévin).
Charge exchange and fragmentation in slow collisions of He2+ with water molecules (N. Stolterfoht et al.).
How Very Low-energy (0.1-2 eV) Electrons Cause DNA Strand Breaks (J. Simons).
Electron-driven molecular processes induced in biological systems by electromagnetic and other ionizing sources (I. Baccarelli et al.).
Electron Attachment to DNA Base Complexes (A.F. Jalbout, L. Adamowicz).
Accelerating multiple scattering of electrons emitted by ion impact: Contribution to molecular fragmentation and radiation damages (B. Sulik, K. Tokési).
Total Electron Stopping Powers and CSDA- Ranges from 20 eV to 10 MeV electron energies for components of DNA and RNA (A. Akar et al.).
The Influence of Stopping Powers upon Dosimetry for Radiation Therapy with energetic Ions (H. Paul et al.)