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Chemical Reactivity -

Chemical Reactivity

Volume 2: Approaches and Applications
Buch | Softcover
500 Seiten
2023
Elsevier - Health Sciences Division (Verlag)
978-0-323-90259-5 (ISBN)
CHF 269,95 inkl. MwSt
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The growth of technology for chemical assessment has led to great developments in the investigation of chemical reactivity in recent years, but key information is often dispersed across many different research fields. Exploring both traditional and advanced methods, Chemical Reactivity, Volume 2: Approaches and Applications present the latest approaches and strategies for the computational assessment of chemical reactivity.

Following an insightful introduction, the book begins with an overview of conformer searching techniques before progressing to explore numerous different techniques and methods, including confined environments, quantum similarity descriptors, volume-based thermodynamics and polarizability. A unified approach to the rules of aromaticity is followed by methods for assessing interaction energies and the role of electron density for varied different analyses. Algorithms for confirmer searching, partitioning and a whole range of quantum chemical methods are also discussed.

Consolidating the knowledge of a global team of experts in the field, Chemical Reactivity, Volume 2: Approaches and Applications is a useful resource for both students and researchers interested in applying and refining their use of the latest approaches for assessing chemical reactivity in their own work.

Savas Kaya is associate professor at Sivas Cumhuriyet University, Turkey. His research interests lie in theoretical chemistry, computational chemistry, materials science, corrosion science, physical inorganic chemistry, and coordination chemistry. László von Szentpâly currently works at the Faculty of Chemistry, Universität Stuttgart. A member of American Chemical Society with a good reputation in the field of theoretical chemistry, László’s achievements include research on the valence states interaction model of chemical bonding (VSI model) and molecular modelling of ultimate intercalated carcinogens. He has more than 35 research articles, reviews and book chapters on concepts and applications in Density Functional Theory to his name. Goncagül Serdaroglu obtained her PhD degree from Sivas Cumhuriyet University’s Physical chemistry (Theoretical Chemistry) department and was a post-doctoral fellow with Prof. Joseph Vincent Ortiz (Auburn University, USA). At present, she works at Sivas Cumhuriyet University (Math. and Sci. Edu. Department) as Assistant Professor. Her primary research investigates the chemical reactivity behavior of pharmaceutically important molecules using computational tools. Recently, she has focused on the spectroscopic (IR, NMR, UV) and NLO (nonlinear optic) properties of molecular systems. She has published 30 research papers in key computational theoretical chemistry-related journals Lei Guo received his PhD degree in materials chemistry from the Chongqing university of china. His research is dedicated to synthesis and characterization of organic molecules and their application towards corrosion inhibition property for the protection of metals and alloys from acid corrosion. His interests also encompass theoretical and experimental research in condensed matter physics

1. Applications of the quantum theory of atoms in molecules in chemical reactivity

2. Exploring chemical space with alchemical derivatives

3. Quantum chemical descriptors as a modeling framework for large biological structures

4. Quantum chemical reactivity, mutations, and reality: narrative essay

5. Volume-based thermodynamics approach in the context of solid-state chemical reactivity analysis

6. Predicting reactivity with a general-purpose reactivity indicator

7. Components of density functional reactivity theory-based stabilization energy: descrip

8. Electronegativity equalization principle: new approaches and models for the study of chemical reactivity

9. Electrophilic aromatic substitution: from isolated reactant approaches to chemical reactivity in solvent

10. Lessons from the maximum hardness principle

11. Electron density to analyze acids and bases of Lewis: computational tools

12. Phase modeling of donor–acceptor systems, continuity relations, and resultant entropy/information descriptors

13. Understanding odd-electron halogen bonding in the light of chemical reactivity indices

14. Using conceptual DFT for studies of metal complexes: some interesting examples

15. Noniterative solvation energy method based on atomic charges

16. Chemical reactivity in confined environment

17. Structure prediction using reactivity descriptors

Erscheinungsdatum
Zusatzinfo Approx. 105 illustrations; Illustrations
Verlagsort Philadelphia
Sprache englisch
Maße 152 x 229 mm
Gewicht 780 g
Themenwelt Naturwissenschaften Chemie Physikalische Chemie
ISBN-10 0-323-90259-6 / 0323902596
ISBN-13 978-0-323-90259-5 / 9780323902595
Zustand Neuware
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