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Advances in Quantum Chemical Topology Beyond QTAIM Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)

Advances in Quantum Chemical Topology Beyond QTAIM By Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)

Advances in Quantum Chemical Topology Beyond QTAIM by Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)

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Advances in Quantum Chemical Topology Beyond QTAIM Summary

Advances in Quantum Chemical Topology Beyond QTAIM by Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)

Advances in Quantum Chemical Topology Beyond QTAIM provides a complete overview of the field, starting with traditional methods and then covering key steps to the latest state-of-the-art extensions of QTAIM. The book supports researchers by compiling and reviewing key methods, comparing different algorithms, and providing computational results to show the efficacy of the approaches. Beginning with an introduction to quantum chemistry, QTAIM and key extensions, the book goes on to discuss interacting quantum atoms and related energy properties, explores partitioning methods, and compares algorithms for QTAIM. Partitioning schemes are them compared in more detail before applications are explored and future developments discussed. Drawing together the knowledge of key authorities in the area, this book provides a comprehensive, pedogeological guide to this insightful theory for all those interested in modelling, exploring and understanding molecular properties.

About Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)

Juan I. Rodriguez is a full professor at Instituto Politecnico Nacional-Mexico since 2014. He obtained his PhD in quantum chemistry under the supervision of Prof. Paul Ayers developing efficient Density Functional Theory (DFT) numerical methodologies. He also worked with Prof. Richard Bader as a postdoctoral research assistant focusing on developing high performance algorithms for computing Bader's QTAIM properties of big CPU-time-prohibiting systems. These methods were implemented in the Amsterdam Density Functional package (ADF). Currently prof. Rodriguez and his research group uses DFT-QTAIM based calculations to study materials for technological applications in organic solar cells, hydrogen evolution catalyst, virus biosensors, water pollution, etc. Fernando Cortes-Guzman is a full professor at the Instituto de Quimica, Universidad Nacional Autonoma de Mexico since 2008. He received his Ph.D. under Dr. Gabriel E. Cuevas Gonzalez Bravo at UNAM. He also worked with Prof. Richard Bader as a postdoctoral research assistant focusing Metal-Ligand interactions. He focuses on the study of the evolution of specific interactions throughout a chemical process, both in the basal and excited state, using the local and integrated properties of scalar fields in order to understand and predict reactivity and molecular recognition. James S. M. Anderson is an associate professor at Instituto de Quimica, Universidad Nacional Autonoma de Mexico since 2019. He received his Ph.D. under Prof. Paul W. Ayers at McMaster University where he developed algorithms for finding exact solutions for the equations appropriate for quantum chemistry. He completed a postdoctoral stays with Prof. Takaharu Otsuka at the University of Tokyo, Prof. Wenjian Liu at Peking University, Dr. Seiji Yunoki at RIKEN, and Prof. Koichi Yamashita at the University of Tokyo. Currently Prof. Anderson and coworkers carry out research in: 1) Developing methods that accurately approximate the electronic structure of atoms, molecules, clusters, and chemical systems. 2) Developing computational facile models that provide intuition into a molecules or chemical system, with a strong preference for models that are derived directly from formal mathematics. 3) Using mathematical theorems and analytic solutions to model equations to gain insight into chemistry.

Table of Contents

1. Introduction to QTAIM and beyond Fernando Cortes-Guzman, Juan I. Rodriguez, and James S. M. Anderson 2. An Introduction to Quantum Chemistry David C. Thompson and Juan I. Rodriguez 3. New high performance QTAIM algorithms: From organic photovoltaics to catalyst materials Juan I. Rodriguez, Hector Daniel Morales-Rodriguez, Emiliano Dorantes-Hernandez and Omar A. Alvarez-Gonzaga 4. Structural and Bond Evolutions During a Chemical Reaction Pablo Carpio-Martinez and Fernando Cortes-Guzman 5. The MC-QTAIM: A framework for extending the atoms in molecules analysis beyond purely electronic systems Shant Shahbazian 6. Theory Developments and Applications of Next Generation QTAIM (NG-QTAIM) Xing Nie, Yong Yang, Tianlv Xu, Steven R. Kirk, and Samantha Jenkins 7. Real-Space Description of Molecular Processes in Electronic Excited States Jesus Jara-Cortes and Jesus Hernandez-Trujillo 8. Open Quantum Systems, Electron Distribution Functions, Fragment Natural Orbitals and the Quantum Theory of Atoms in Molecules Evelio Francisco, Aurora Costales and Angel Martin Pendas 9. The Ehrenfest Force Yoshio Barrera, Airi Kawasaki, Paul W. Ayers and James S. M. Anderson 10. Relativistic QTAIM James S. M. Anderson 11. Chemical insights from the Source Function reconstruction of various scalar fields relevant to Chemistry Carlo Gatti and Giovanna Bruno 12. Scalar and vector fields derived from magnetically induced current density Jose E. Barquera-Lozada 13. Gradient Bundles Amanda Morgenstern 14. Nonnuclear Maxima in the Molecular Electron Density James S. M. Anderson, Aldo de Jesus Mortera-Carbonell and Cherif F. Matta 15. Spin Polarization of the Atomic Valence Shell in Metal Complexes. David I. Ramirez-Palma, Ricardo Almada-Monter, Eduardo Orozco-Valdespino, Rosa Maria Gomez-Espinosa and Fernando Cortes-Guzman 16. A Bond Bundle Case Study of Diels-Alder Catalysis and Selectivity Using Oriented Electric Fields Timothy R. Wilson and M. E. Eberhart 17. Applications of the Quantum Theory of Atoms in Molecules and the Interacting Quantum Atoms Methods to the Study of Hydrogen Bonds Jose Manuel Guevara-Vela, Alberto Fernandez-Alarcon and Tomas Rocha-Rinza 18. Recent advances on halogen bonds within the quantum theory of atoms in molecules Vincent Tognetti and Laurent Joubert 19. The Non-Covalent Interactions index: from biology to chemical reactivity and solid-state Bruno Landeros-Rivera and Julia Contreras-Garcia 20. Photochemistry: a topological perspective Ismael Vargas-Rodriguez and Marco Garcia-Revilla

Additional information

NLS9780323908917
9780323908917
0323908918
Advances in Quantum Chemical Topology Beyond QTAIM by Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)
Juan I. Rodriguez (Instituto Politecnico Nacional-Mexico, Mexico City, 07738)
New
Paperback
Elsevier - Health Sciences Division
2022-12-16
568
N/A
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