3 ECTS credits
90 u studietijd

Aanbieding 1 met studiegidsnummer 4023197FNR voor alle studenten in het 1e semester met een gespecialiseerd master niveau.

Semester
1e semester
Inschrijving onder examencontract
Niet mogelijk
Beoordelingsvoet
Beoordeling (0 tot 20)
2e zittijd mogelijk
Ja
Inschrijvingsvereisten
Students must have followed ‘Physical Chemistry : Quantum Chemistry’ and 'Introduction to Computational Chemistry', before they can enroll for ‘Chemical Concepts from Quantum Chemistry’.
Onderwijstaal
Engels
Faculteit
Faculteit Wetenschappen en Bio-ingenieurswetensch.
Verantwoordelijke vakgroep
Chemie
Onderwijsteam
Mercedes Alonso Giner (titularis)
Onderdelen en contacturen
16 contacturen Hoorcollege
20 contacturen Werkcolleges, practica en oefeningen
14 contacturen Zelfstudie en externe werkvormen
Inhoud

The course focuses on chemical concepts and interpretative quantum chemical techniques to characterize chemical bonding and reactivity. The first part of this module is aimed to explain the concept of chemical bonding from molecular orbital-based theory as well as valence bond theory. These theories provide a solid background to qualitative describe the electronic structure of molecules. Then, different population analysis based on the electron density will be introduced as a reference-state-free method to interpret chemical bonding. Atoms in Molecules, Hirshfeld and Voronoi atomic charges will be covered, as well as Natural Bond Orbital Analysis. These tools will be complemented with state-of-the-art tools such as energy decomposition schemes, the electron localization function (ELF) and the non-covalent interactions (NCI), with a particular emphasis on intermolecular interactions. In addition, the student will be introduced to the controversial concept of aromaticity and how this property can be quantified using a series of global and local descriptors rooted on the energetic, magnetic, reactivity, structural and electronic criteria.  

On the second part of this course, a quantitative approach to the analysis of chemical reactivity will be addressed. Different quantum chemical techniques to investigate the factors affecting the reaction rates and thermodynamics will be introduced. In particular, we will provide an account of the activation-strain model of chemical reactivity and its recent applications in the fields of catalysis and organic chemistry. Besides fragment-based approaches, we will introduce several quantities derived from density functional theory that directly relate to chemical concepts and reactivity of molecules. 

 

HOC 

 

Part 1: Chemical bonding 

  1. Chemical bonding types 

1.2 Molecular orbital theory vs Valence bond theory 

1.3 Qualitative description of bonding: orbital diagrams 

Part 2: New tools for chemical bonding analysis 

  1. Quantum theory of Atoms in Molecules 

  1. Voronoi and Hirshfeld atomic partitioning schemes  

  1. The electron localization function (ELF)  

  1.  Energy decomposition analysis: EDA-NOCV method 

  1. Natural bond orbitals (NBO) and natural population analysis 

  1.  Noncovalent interactions: the NCI index 

Part 3: Aromaticity as a central concept in Chemistry 

  1. Definition of the aromaticity concept  

  1. Aromaticity descriptors 

  1. Local vs global aromaticity 

Part 4: Chemical reactivity as described by quantum chemical methods 

  1. Transition state theory 

  1. Analyzing reaction rates with the activation strain model  

  1. Conceptual Density Functional Theory 

 

The WPO consists of a number of computer classes, which are designed to deepen the theory and to provide a 'hands-on' expertise in applying chemical concepts and interpretative quantum mechanical methods to solve concrete problems in chemistry. 

Studiemateriaal
Digitaal cursusmateriaal (Vereist) : Slides, Canvas
Handboek (Aanbevolen) : The chemical bond, Fundamental aspects of chemical bonding, G. Frenking, S. Shaik, Wiley, 9783527333141, 2014
Handboek (Aanbevolen) : Introduction to computational chemistry, F. Jensen, 3de, Wiley, 9781118825990, 2017
Handboek (Aanbevolen) : Essentials of Computational Chemistry, Theories and Models, C. J. Cramer, 2de, Wiley, 9780470091821, 2004
Bijkomende info

Digital course material (Mandatory): Slides, Pointcarre 

Book (Recommended): The chemical bond: fundamental aspects of chemical bonding, G. Frenking, S. Shaik, Wiley 2014. 

Book (Recommended): Introduction to computational chemistry, F. Jensen, 2nd ed., Wiley, 2007 

Book (Recommended): Essentials of Computational Chemistry, C. J. Cramer, Wiley, 2004 

Some review papers will be distributed during the course. 

Leerresultaten

general competencies

On completion of the course, a student should be able to: 

  • Use molecular orbital theory to describe the electronic structure and chemical bonding in polyatomic molecules. 

  • Understand and calculate the atomic populations and bond-orders using different atomic partitions, as well as the identification of valence electrons, lone-pairs and bonding regions. 

  • Perform chemical bonding analysis using state-of-the-art conceptual techniques  

  • Assess the aromaticity of organic and inorganic species through electronic, energetic, magnetic, structural and reactivity criteria. 

  • To investigate and rationalize chemical reactivity with a toolbox of quantum chemistry approaches. 

 

Overall, the students will be able to choose the adequate tool upon given a chemical problem, from bonding analysis to chemical reactivity. 

Beoordelingsinformatie

De beoordeling bestaat uit volgende opdrachtcategorieën:
Examen Andere bepaalt 100% van het eindcijfer

Binnen de categorie Examen Andere dient men volgende opdrachten af te werken:

  • report + oral met een wegingsfactor 100 en aldus 100% van het totale eindcijfer.

Aanvullende info mbt evaluatie

Continuous evaluation: In each computer session, an assignment is given related to the topics introduced in the theoretical classes. Each student has to make a throughout analysis of a given chemical problem, relying on the application and interpretation of several interpretative tools introduced in this course. A written report has to be handled at the end of the course, containing an introduction, theoretical background, the results and complementary analyses. The reports count for 50% of the final mark. 

 

 

 

 

Periodic evaluation: Oral exam for that comprises 50% of the final mark. In this examination, we will discuss the practical reports and evaluate the knowledge and insight of the student into the interpretative quantum chemical approaches and chemical concepts. 

Toegestane onvoldoende
Kijk in het aanvullend OER van je faculteit na of een toegestane onvoldoende mogelijk is voor dit opleidingsonderdeel.

Academische context

Deze aanbieding maakt deel uit van de volgende studieplannen:
Master in de chemie: Standaard traject
Master of Chemistry: Analytical and Environmental Chemistry (enkel aangeboden in het Engels)
Master of Chemistry: Chemical Theory, (Bio)Molecular Design and Synthesis (enkel aangeboden in het Engels)